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References to Retriever

Since the launch or our first Retriever model (in the end of 2003) the four subsequent modifications of this unit were used worldwide in many laboratories. Our current list of publications reporting using Retriever for epitope recovery is over 600 aticles, books, patents and thesis pulications. If yuo would like to review them all, you can download the file with original articles or experiments involving Retriever (known to us, as we all the time find new ones).

Below, for your overview are just a few selected publications, grouped by the journal or by the subject of the research.

 

Cell & Cell Reports

Chung, K.M., Singh, J., Lawres, L., Dorans, K.J., Garcia, C., Burkhardt, D.B., Robbins, R., Bhutkar, A., Cardone, R., Zhao, X., et al. (2020). Endocrine-Exocrine Signaling Drives Obesity-Associated Pancreatic Ductal Adenocarcinoma. Cell 181, 832-847.e18. 10.1016/j.cell.2020.03.062.

Pagliuca, F.W., Millman, J.R., Gürtler, M., Segel, M., Van Dervort, A., Ryu, J.H., Peterson, Q.P., Greiner, D., and Melton, D.A. (2014). Generation of Functional Human Pancreatic β Cells In Vitro. Cell 159, 428–439. 10.1016/j.cell.2014.09.040.

Rodeheffer, M.S., Birsoy, K., and Friedman, J.M. (2008). Identification of white adipocyte progenitor cells in vivo. Cell 135, 240–249. 10.1016/j.cell.2008.09.036.

 

Huang, Z., Zhang, Z., Moazzami, Z., Heck, R., Hu, P., Nanda, H., Ren, K., Sun, Z., Bartolomucci, A., Gao, Y., et al. (2022). Brown adipose tissue involution associated with progressive restriction in progenitor competence. Cell Reports 39, 110575. 10.1016/j.celrep.2022.110575.

Mancini, G., Pirruccio, K., Yang, X., Blüher, M., Rodeheffer, M., and Horvath, T.L. (2019). Mitofusin 2 in Mature Adipocytes Controls Adiposity and Body Weight. Cell Reports 26, 2849-2858.e4. 10.1016/j.celrep.2019.02.039.

Zhao, M., Ren, K., Xiong, X., Cheng, M., Zhang, Z., Huang, Z., Han, X., Yang, X., Alejandro, E.U., and Ruan, H.-B. (2020). Protein O-GlcNAc Modification Links Dietary and Gut Microbial Cues to the Differentiation of Enteroendocrine L Cells. Cell Rep 32, 108013. 10.1016/j.celrep.2020.108013.

Other Cell Journals

Zhou, D., Conrad, C., Xia, F., Park, J.-S., Payer, B., Yin, Y., Lauwers, G.Y., Thasler, W., Lee, J.T., Avruch, J., et al. (2009). Mst1 and Mst2 maintain hepatocyte quiescence and suppress hepatocellular carcinoma development through inactivation of the Yap1 oncogene. Cancer Cell 16, 425–438. 10.1016/j.ccr.2009.09.026.

Peuhu, E., Jacquemet, G., Scheele, C.L.G.J., Isomursu, A., Laisne, M.-C., Koskinen, L.M., Paatero, I., Thol, K., Georgiadou, M., Guzmán, C., et al. (2022). MYO10-filopodia support basement membranes at pre-invasive tumor boundaries. Developmental Cell 57, 2350-2364.e7. 10.1016/j.devcel.2022.09.016

Xu, K., Sacharidou, A., Fu, S., Chong, D.C., Skaug, B., Chen, Z.J., Davis, G.E., and Cleaver, O. (2011). Blood vessel tubulogenesis requires Rasip1 regulation of GTPase signaling. Dev Cell 20, 526–539. 10.1016/j.devcel.2011.02.010.

Zhao, M., Ren, K., Xiong, X., Xin, Y., Zou, Y., Maynard, J.C., Kim, A., Battist, A.P., Koneripalli, N., Wang, Y., et al. (2022). Epithelial STAT6 O-GlcNAcylation drives a concerted anti-helminth alarmin response dependent on tuft cell hyperplasia and Gasdermin C. Immunity 55, 623-638.e5. 10.1016/j.immuni.2022.03.009.

EMBO Journals

Melkman-Zehavi, T., Oren, R., Kredo-Russo, S., Shapira, T., Mandelbaum, A.D., Rivkin, N., Nir, T., Lennox, K.A., Behlke, M.A., Dor, Y., et al. (2011). miRNAs control insulin content in pancreatic β-cells via downregulation of transcriptional repressors. The EMBO Journal 30, 835–845. 10.1038/emboj.2010.361.

Perea, D., Guiu, J., Hudry, B., Konstantinidou, C., Milona, A., Hadjieconomou, D., Carroll, T., Hoyer, N., Natarajan, D., Kallijärvi, J., et al. (2017). Ret receptor tyrosine kinase sustains proliferation and tissue maturation in intestinal epithelia. EMBO J 36, 3029–3045. 10.15252/embj.201696247.

Peuhu, E., Kaukonen, R., Lerche, M., Saari, M., Guzmán, C., Rantakari, P., Franceschi, N.D., Wärri, A., Georgiadou, M., Jacquemet, G., et al. (2016). SHARPIN regulates collagen architecture and ductal outgrowth in the developing mouse mammary gland. The EMBO Journal, e201694387. 10.15252/embj.201694387.

 

Acx, H., Serneels, L., Radaelli, E., Muyldermans, S., Vincke, C., Pepermans, E., Müller, U., Chávez‐Gutiérrez, L., and Strooper, B.D. (2017). Inactivation of γ‐secretases leads to accumulation of substrates and non‐Alzheimer neurodegeneration. EMBO Molecular Medicine 9, 1088–1099. 10.15252/emmm.201707561.

Schumacher, F.-R., Siew, K., Zhang, J., Johnson, C., Wood, N., Cleary, S.E., Al Maskari, R.S., Ferryman, J.T., Hardege, I., Yasmin, et al. (2015). Characterisation of the Cullin-3 mutation that causes a severe form of familial hypertension and hyperkalaemia. EMBO Molecular Medicine 7, 1285–1306. 10.15252/emmm.201505444.

Zhao, M., Xiong, X., Ren, K., Xu, B., Cheng, M., Sahu, C., Wu, K., Nie, Y., Huang, Z., Blumberg, R.S., et al. (2018). Deficiency in intestinal epithelial O‐GlcNAcylation predisposes to gut inflammation. EMBO Molecular Medicine, e8736. 10.15252/emmm.201708736.

Endothelial-immune crosstalk contributes to vasculopathy in nonalcoholic fatty liver disease (2022). EMBO reports 23, e54271. 10.15252/embr.202154271.

Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

​​​Antigen retriever, immunohistochemistry, tissue sections, antigen recovery, formalin-fixed, paraffin embedded tissue sections, immunohistochemistry protocols

 

 

écupération d'antigène, 抗原检索
antigen vyhledávání,
antigen hentning,antigen herstel,
antigeeni otsing, antigeeni haku
ανάκτηση αντιγόνου
אנטיגן אחזור
antigene recupero
항원 검색
antigenas paieška
antigen gjenfinning
بازیابی آنتی ژن
مستضد استرجاع
odzyskiwanie antigen
recuperação antigênica
antigen de regăsire
антигена преузимање
antígeno de recuperación de
antigenåtervinning
antijen alımı
مائجن بازیافت

paraffin immunohistochemistry
البارافين المناعية
石蜡免疫组化
parafín imunohistochemie
paraffin immunhistokemi
paraffine immunohistochemie
parafiini immunohistokemiallisesti
immunohistochimie paraffine
Paraffin Immunhistochemie
פרפין אימונוהיסטוכימיה
paraffina immunoistochimica
ανοσοϊστοχημεία παραφίνη
パラフィン免疫組織化学
imunohistoquímica parafina
парафин иммуногистохимия
inmunohistoquímica de parafina
parafin immünhistokimya
paraffin immunohistokemi

Cell & Cell Reports
Other Cell Journals
EMBO Journals
Nature & Nat.Communications, Nat .Medicine, Nat. Cell Biology
Nature

Perera, R.M., Stoykova, S., Nicolay, B.N., Ross, K.N., Fitamant, J., Boukhali, M., Lengrand, J., Deshpande, V., Selig, M.K., Ferrone, C.R., et al. (2015). Transcriptional control of autophagy-lysosome function drives pancreatic cancer metabolism. Nature 524, 361–365. 10.1038/nature14587.

Saha, S.K., Parachoniak, C.A., Ghanta, K.S., Fitamant, J., Ross, K.N., Najem, M.S., Gurumurthy, S., Akbay, E.A., Sia, D., Cornella, H., et al. (2014). Mutant IDH inhibits HNF-4α to block hepatocyte differentiation and promote biliary cancer. Nature 513, 110–114. 10.1038/nature13441.

Almstedt, E., Elgendy, R., Hekmati, N., Rosén, E., Wärn, C., Olsen, T.K., Dyberg, C., Doroszko, M., Larsson, I., Sundström, A., et al. (2020). Integrative discovery of treatments for high-risk neuroblastoma. Nature Communications 11, 71. 10.1038/s41467-019-13817-8.

Apóstolo, N., Smukowski, S.N., Vanderlinden, J., Condomitti, G., Rybakin, V., ten Bos, J., Trobiani, L., Portegies, S., Vennekens, K.M., Gounko, N.V., et al. (2020). Synapse type-specific proteomic dissection identifies IgSF8 as a hippocampal CA3 microcircuit organizer. Nature Communications 11, 5171. 10.1038/s41467-020-18956-x.

Astanina, E., Doronzo, G., Corà, D., Neri, F., Oliviero, S., Genova, T., Mussano, F., Middonti, E., Vallariello, E., Cencioni, C., et al. (2022). The TFEB-TGIF1 axis regulates EMT in mouse epicardial cells. Nat Commun 13, 5191. 10.1038/s41467-022-32855-3.

Everard, A., Geurts, L., Caesar, R., Hul, M.V., Matamoros, S., Duparc, T., Denis, R.G.P., Cochez, P., Pierard, F., Castel, J., et al. (2014). Intestinal epithelial MyD88 is a sensor switching host metabolism towards obesity according to nutritional status. Nature Communications 5, 5648. 10.1038/ncomms6648.

Kaukonen, R., Mai, A., Georgiadou, M., Saari, M., De Franceschi, N., Betz, T., Sihto, H., Ventelä, S., Elo, L., Jokitalo, E., et al. (2016). Normal stroma suppresses cancer cell proliferation via mechanosensitive regulation of JMJD1a-mediated transcription. Nat Commun 7. 10.1038/ncomms12237.

Pietilä, M., Sahgal, P., Peuhu, E., Jäntti, N.Z., Paatero, I., Närvä, E., Al-Akhrass, H., Lilja, J., Georgiadou, M., Andersen, O.M., et al. (2019). SORLA regulates endosomal trafficking and oncogenic fitness of HER2. Nature Communications 10, 2340. 10.1038/s41467-019-10275-0.

Seishima, R., Leung, C., Yada, S., Murad, K.B.A., Tan, L.T., Hajamohideen, A., Tan, S.H., Itoh, H., Murakami, K., Ishida, Y., et al. (2019). Neonatal Wnt-dependent Lgr5 positive stem cells are essential for uterine gland development. Nature Communications 10, 5378. 10.1038/s41467-019-13363-3.

Adriaens, C., Standaert, L., Barra, J., Latil, M., Verfaillie, A., Kalev, P., Boeckx, B., Wijnhoven, P.W.G., Radaelli, E., Vermi, W., et al. (2016). p53 induces formation of NEAT1 lncRNA-containing paraspeckles that modulate replication stress response and chemosensitivity. Nat Med 22, 861–868. 10.1038/nm.4135.

Adriaens, C., Standaert, L., Barra, J., Latil, M., Verfaillie, A., Kalev, P., Boeckx, B., Wijnhoven, P.W.G., Radaelli, E., Vermi, W., et al. (2016). p53 induces formation of NEAT1 lncRNA-containing paraspeckles that modulate replication stress response and chemosensitivity. Nat Med 22, 861–868. 10.1038/nm.4135.

Lopez, R.G., Garcia-Silva, S., Moore, S.J., Bereshchenko, O., Martinez-Cruz, A.B., Ermakova, O., Kurz, E., Paramio, J.M., and Nerlov, C. (2009). C/EBPalpha and beta couple interfollicular keratinocyte proliferation arrest to commitment and terminal differentiation. Nat. Cell Biol. 11, 1181–1190. 10.1038/ncb1960.

Nittner, D., Lambertz, I., Clermont, F., Mestdagh, P., Köhler, C., Nielsen, S.J., Jochemsen, A., Speleman, F., Vandesompele, J., Dyer, M.A., et al. (2012). Synthetic lethality between Rb, p53 and Dicer or miR-17–92 in retinal progenitors suppresses retinoblastoma formation. Nat Cell Biol 14, 958–965. 10.1038/ncb2556.

PNAS
PNAS

Gao, X., Vockley, C.M., Pauli, F., Newberry, K.M., Xue, Y., Randell, S.H., Reddy, T.E., and Hogan, B.L.M. (2013). Evidence for multiple roles for grainyhead-like 2 in the establishment and maintenance of human mucociliary airway epithelium. PNAS 110, 9356–9361. 10.1073/pnas.1307589110

.

Lee, J.J., Perera, R.M., Wang, H., Wu, D.-C., Liu, X.S., Han, S., Fitamant, J., Jones, P.D., Ghanta, K.S., Kawano, S., et al. (2014). Stromal response to Hedgehog signaling restrains pancreatic cancer progression. PNAS 111, E3091–E3100. 10.1073/pnas.1411679111.

Zhang, H., Pasolli, H.A., and Fuchs, E. (2011). Yes-associated protein (YAP) transcriptional coactivator functions in balancing growth and differentiation in skin. PNAS 108, 2270–2275. 10.1073/pnas.1019603108.

Zhao, Y., Kwan, K.-M., Mailloux, C.M., Lee, W.-K., Grinberg, A., Wurst, W., Behringer, R.R., and Westphal, H. (2007). LIM-homeodomain proteins Lhx1 and Lhx5, and their cofactor Ldb1, control Purkinje cell differentiation in the developing cerebellum. PNAS 104, 13182–13186. 10.1073/pnas.0705464104.

Rock, J.R., Barkauskas, C.E., Cronce, M.J., Xue, Y., Harris, J.R., Liang, J., Noble, P.W., and Hogan, B.L.M. (2011). Multiple stromal populations contribute to pulmonary fibrosis without evidence for epithelial to mesenchymal transition. Proc. Natl. Acad. Sci. U.S.A. 108, E1475-1483. 10.1073/pnas.1117988108.

Svensson, M.N.D., Andersson, K.M.E., Wasén, C., Erlandsson, M.C., Nurkkala-Karlsson, M., Jonsson, I.-M., Brisslert, M., Bemark, M., and Bokarewa, M.I. (2015). Murine germinal center B cells require functional Fms-like tyrosine kinase 3 signaling for IgG1 class-switch recombination. Proc Natl Acad Sci U S A 112, E6644–E6653. 10.1073/pnas.1514191112.

Journal Of Experimental Medicine
J EX MED

Janardhan, H.P., Meng, X., Dresser, K., Hutchinson, L., and Trivedi, C.M. (2020). KRAS or BRAF mutations cause hepatic vascular cavernomas treatable with MAP2K–MAPK1 inhibition. Journal of Experimental Medicine 217. 10.1084/jem.20192205.

Luo, M., Flood, E.C., Almeida, D., Yan, L., Berlin, D.A., Heerdt, P.M., and Hajjar, K.A. (2017). Annexin A2 supports pulmonary microvascular integrity by linking vascular endothelial cadherin and protein tyrosine phosphatases. Journal of Experimental Medicine 214, 2535–2545. 10.1084/jem.20160652.

Cell Biology
Cell Biology

  • Chung, K.M., Singh, J., Lawres, L., Dorans, K.J., Garcia, C., Burkhardt, D.B., Robbins, R., Bhutkar, A., Cardone, R., Zhao, X., et al. (2020). Endocrine-Exocrine Signaling Drives Obesity-Associated Pancreatic Ductal Adenocarcinoma. Cell 181, 832-847.e18. 10.1016/j.cell.2020.03.062.

  • Pagliuca, F.W., Millman, J.R., Gürtler, M., Segel, M., Van Dervort, A., Ryu, J.H., Peterson, Q.P., Greiner, D., and Melton, D.A. (2014). Generation of Functional Human Pancreatic β Cells In Vitro. Cell 159, 428–439. 10.1016/j.cell.2014.09.040.

  • Rodeheffer, M.S., Birsoy, K., and Friedman, J.M. (2008). Identification of white adipocyte progenitor cells in vivo. Cell 135, 240–249. 10.1016/j.cell.2008.09.036.

  • Ghahremani, M.F., Radaelli, E., Haigh, K., Bartunkova, S., Haenebalcke, L., Marine, J.-C., Goossens, S., and Haigh, J.J. (2014). Loss of autocrine endothelial-derived VEGF significantly reduces hemangiosarcoma development in conditional p53-deficient mice. Cell Cycle 13, 1501–1507. 10.4161/cc.28474.

  • Fouchécourt, S., Livera, G., Messiaen, S., Fumel, B., Parent, A.-S., Marine, J.-C., and Monget, P. (2016). Apoptosis of Sertoli cells after conditional ablation of murine double minute 2 (Mdm2) gene is p53-dependent and results in male sterility. Cell Death Differ 23, 521–530. 10.1038/cdd.2015.120.

  • Liu, C., Zhang, C.-W., Zhou, Y., Wong, W.Q., Lee, L.C., Ong, W.Y., Yoon, S.O., Hong, W., Fu, X.-Y., Soong, T.W., et al. (2018). APP upregulation contributes to retinal ganglion cell degeneration via JNK3. Cell Death & Differentiation 25, 661–676. 10.1038/s41418-017-0005-3.

  • Rabachini, T., Fernandez-Marrero, Y., Montani, M., Loforese, G., Sladky, V., He, Z., Bachmann, D., Wicki, S., Villunger, A., Stroka, D., et al. (2017). BOK promotes chemical-induced hepatocarcinogenesis in mice. Cell Death & Differentiation, 1. 10.1038/s41418-017-0008-0.

  • Tan, M.W.Y., Sng, M.K., Cheng, H.S., Low, Z.S., Leong, B.J.J., Chua, D., Tan, E.H.P., Chan, J.S.K., Yip, Y.S., Lee, Y.H., et al. (2020). Deficiency in fibroblast PPARβ/δ reduces nonmelanoma skin cancers in mice. Cell Death & Differentiation 27, 2668–2680. 10.1038/s41418-020-0535-y.

  • Messenger, Z.J., Hall, J.R., Jima, D.D., House, J.S., Tam, H.W., Tokarz, D.A., and Smart, R.C. (2018). C/EBPβ deletion in oncogenic Ras skin tumors is a synthetic lethal event. Cell Death Dis 9, 1–16. 10.1038/s41419-018-1103-y.

  • Roach, E.E., Chakrabarti, R., Park, N.I., Keats, E.C., Yip, J., Chan, N.G., and Khan, Z.A. (2012). Intrinsic regulation of hemangioma involution by platelet-derived growth factor. Cell Death Dis 3, e328. 10.1038/cddis.2012.58.

  • Yalcin, A., Clem, B.F., Imbert-Fernandez, Y., Ozcan, S.C., Peker, S., O’Neal, J., Klarer, A.C., Clem, A.L., Telang, S., and Chesney, J. (2014). 6-Phosphofructo-2-kinase (PFKFB3) promotes cell cycle progression and suppresses apoptosis via Cdk1-mediated phosphorylation of p27. Cell Death Dis 5, e1337. 10.1038/cddis.2014.292.

  • Shan, B., Barker, C.S., Shao, M., Zhang, Q., Gupta, R.K., and Wu, Y. (2022). Multilayered omics reveal sex- and depot-dependent adipose progenitor cell heterogeneity. Cell Metabolism 34, 783-799.e7. 10.1016/j.cmet.2022.03.012.

  • Shao, M., Ishibashi, J., Kusminski, C.M., Wang, Q.A., Hepler, C., Vishvanath, L., MacPherson, K.A., Spurgin, S.B., Sun, K., Holland, W.L., et al. (2016). Zfp423 Maintains White Adipocyte Identity through Suppression of the Beige Cell Thermogenic Gene Program. Cell Metab 23, 1167–1184. 10.1016/j.cmet.2016.04.023.

  • Yue, S., Li, J., Lee, S.-Y., Lee, H.J., Shao, T., Song, B., Cheng, L., Masterson, T.A., Liu, X., Ratliff, T.L., et al. (2014). Cholesteryl Ester Accumulation Induced by PTEN Loss and PI3K/AKT Activation Underlies Human Prostate Cancer Aggressiveness. Cell Metabolism 19, 393–406. 10.1016/j.cmet.2014.01.019.

  • Huang, Z., Zhang, Z., Moazzami, Z., Heck, R., Hu, P., Nanda, H., Ren, K., Sun, Z., Bartolomucci, A., Gao, Y., et al. (2022). Brown adipose tissue involution associated with progressive restriction in progenitor competence. Cell Reports 39, 110575. 10.1016/j.celrep.2022.110575.

  • Mancini, G., Pirruccio, K., Yang, X., Blüher, M., Rodeheffer, M., and Horvath, T.L. (2019). Mitofusin 2 in Mature Adipocytes Controls Adiposity and Body Weight. Cell Reports 26, 2849-2858.e4. 10.1016/j.celrep.2019.02.039.

  • Zhao, M., Ren, K., Xiong, X., Cheng, M., Zhang, Z., Huang, Z., Han, X., Yang, X., Alejandro, E.U., and Ruan, H.-B. (2020). Protein O-GlcNAc Modification Links Dietary and Gut Microbial Cues to the Differentiation of Enteroendocrine L Cells. Cell Rep 32, 108013. 10.1016/j.celrep.2020.108013.

  • Atiakshin, D., Samoilova, V., Buchwalow, I., and Tiemann, M. (2021). Expression of CD38 in Mast Cells: Cytological and Histotopographic Features. Cells 10, 2511. 10.3390/cells10102511.

  • Harms, J.K., Lee, T.-W., Wang, T., Lai, A., Kee, D., Chaplin, J.M., McIvor, N.P., Hunter, F.W., Macann, A.M.J., Wilson, W.R., et al. (2019). Impact of Tumour Hypoxia on Evofosfamide Sensitivity in Head and Neck Squamous Cell Carcinoma Patient-Derived Xenograft Models. Cells 8, 717. 10.3390/cells8070717.

  • Huwart, S.J.P., de Wouters d’Oplinter, A., Rastelli, M., Van Hul, M., de Vos, W.M., Luquet, S., Cani, P.D., and Everard, A. (2022). Food Reward Alterations during Obesity Are Associated with Inflammation in the Striatum in Mice: Beneficial Effects of Akkermansia muciniphila. Cells 11, 2534. 10.3390/cells11162534.

  • Lopez, R.G., Garcia-Silva, S., Moore, S.J., Bereshchenko, O., Martinez-Cruz, A.B., Ermakova, O., Kurz, E., Paramio, J.M., and Nerlov, C. (2009). C/EBPalpha and beta couple interfollicular keratinocyte proliferation arrest to commitment and terminal differentiation. Nat. Cell Biol. 11, 1181–1190. 10.1038/ncb1960.

  • Nittner, D., Lambertz, I., Clermont, F., Mestdagh, P., Köhler, C., Nielsen, S.J., Jochemsen, A., Speleman, F., Vandesompele, J., Dyer, M.A., et al. (2012). Synthetic lethality between Rb, p53 and Dicer or miR-17–92 in retinal progenitors suppresses retinoblastoma formation. Nat Cell Biol 14, 958–965. 10.1038/ncb2556.

  • Jamora, C., Lee, P., Kocieniewski, P., Azhar, M., Hosokawa, R., Chai, Y., and Fuchs, E. (2004). A Signaling Pathway Involving TGF-β2 and Snail in Hair Follicle Morphogenesis. PLoS Biol 3, e11. 10.1371/journal.pbio.0030011.

  • Akhlaghpour, A., Taei, A., Ghadami, S.A., Bahadori, Z., Yakhkeshi, S., Molamohammadi, S., Kiani, T., Samadian, A., Ghezelayagh, Z., Haghparast, N., et al. (2020). Chicken Interspecies Chimerism Unveils Human Pluripotency. Stem Cell Reports. 10.1016/j.stemcr.2020.11.014.

  • Anderson, A.J., Piltti, K.M., Hooshmand, M.J., Nishi, R.A., and Cummings, B.J. (2017). Preclinical Efficacy Failure of Human CNS-Derived Stem Cells for Use in the Pathway Study of Cervical Spinal Cord Injury. Stem Cell Reports 8, 249–263. 10.1016/j.stemcr.2016.12.018.

  • Chin, A.M., Tsai, Y.-H., Finkbeiner, S.R., Nagy, M.S., Walker, E.M., Ethen, N.J., Williams, B.O., Battle, M.A., and Spence, J.R. (2016). A Dynamic WNT/β-CATENIN Signaling Environment Leads to WNT-Independent and WNT-Dependent Proliferation of Embryonic Intestinal Progenitor Cells. Stem Cell Reports 7, 826–839. 10.1016/j.stemcr.2016.09.004.

  • Murphy, M.M., Keefe, A.C., Lawson, J.A., Flygare, S.D., Yandell, M., and Kardon, G. (2014). Transiently Active Wnt/β-Catenin Signaling Is Not Required but Must Be Silenced for Stem Cell Function during Muscle Regeneration. Stem Cell Reports 3, 475–488. 10.1016/j.stemcr.2014.06.019.

  • Robert, T., De Mesmaeker, I., Stangé, G.M., Suenens, K.G., Ling, Z., Kroon, E.J., and Pipeleers, D.G. (2018). Functional Beta Cell Mass from Device-Encapsulated hESC-Derived Pancreatic Endoderm Achieving Metabolic Control. Stem Cell Reports 10, 739–750. 10.1016/j.stemcr.2018.01.040.

  • Sontag, C.J., Uchida, N., Cummings, B.J., and Anderson, A.J. (2014). Injury to the Spinal Cord Niche Alters the Engraftment Dynamics of Human Neural Stem Cells. Stem Cell Reports 2, 620–632. 10.1016/j.stemcr.2014.03.005.

  • Piltti, K.M., Avakian, S.N., Funes, G.M., Hu, A., Uchida, N., Anderson, A.J., and Cummings, B.J. (2015). Transplantation dose alters the dynamics of human neural stem cell engraftment, proliferation and migration after spinal cord injury. Stem Cell Research 15, 341–353. 10.1016/j.scr.2015.07.001.

  • Tian, H., Huang, J.J., Golzio, C., Gao, X., Hector-Greene, M., Katsanis, N., and Blobe, G.C. (2018). Endoglin interacts with VEGFR2 to promote angiogenesis. The FASEB Journal 32, 2934–2949. 10.1096/fj.201700867RR.

  • Gao, X., Bali, A.S., Randell, S.H., and Hogan, B.L.M. (2015). GRHL2 coordinates regeneration of a polarized mucociliary epithelium from basal stem cells. J Cell Biol 211, 669–682. 10.1083/jcb.201506014.

  • Taylor, J., Pereyra, A., Zhang, T., Messi, M.L., Wang, Z.-M., Hereñú, C., Kuan, P.-F., and Delbono, O. (2014). The Cavβ1a subunit regulates gene expression and suppresses myogenin in muscle progenitor cells. J Cell Biol 205, 829–846. 10.1083/jcb.201403021.

Developmental Biology
Developmental Biology

  • Azizoglu, D.B., Braitsch, C., Marciano, D.K., and Cleaver, O. (2017). Afadin and RhoA control pancreatic endocrine mass via lumen morphogenesis. Genes Dev. 31, 2376–2390. 10.1101/gad.307637.117.

  • Shin, S., Walton, G., Aoki, R., Brondell, K., Schug, J., Fox, A., Smirnova, O., Dorrell, C., Erker, L., Chu, A.S., et al. (2011). Foxl1-Cre-marked adult hepatic progenitors have clonogenic and bilineage differentiation potential. Genes Dev. 25, 1185–1192. 10.1101/gad.2027811.

  • Sheaffer, K.L., Kim, R., Aoki, R., Elliott, E.N., Schug, J., Burger, L., Schübeler, D., and Kaestner, K.H. (2014). DNA methylation is required for the control of stem cell differentiation in the small intestine. Genes Dev. 28, 652–664. 10.1101/gad.230318.113.

  • Reizel, Y., Morgan, A., Gao, L., Lan, Y., Manduchi, E., Waite, E.L., Wang, A.W., Wells, A., and Kaestner, K.H. (2020). Collapse of the hepatic gene regulatory network in the absence of FoxA factors. Genes Dev. 10.1101/gad.337691.120.

  • Elliott, E.N., Sheaffer, K.L., Schug, J., Stappenbeck, T.S., and Kaestner, K.H. (2015). Dnmt1 is essential to maintain progenitors in the perinatal intestinal epithelium. Development 142, 2163–2172. 10.1242/dev.117341.

  • Mathew, S.J., Hansen, J.M., Merrell, A.J., Murphy, M.M., Lawson, J.A., Hutcheson, D.A., Hansen, M.S., Angus-Hill, M., and Kardon, G. (2011). Connective tissue fibroblasts and Tcf4 regulate myogenesis. Development 138, 371–384. 10.1242/dev.057463.

  • Peuhu, E., Virtakoivu, R., Mai, A., Wärri, A., and Ivaska, J. (2017). Epithelial vimentin plays a functional role in mammary gland development. Development 144, 4103–4113. 10.1242/dev.154229.

  • Sanz-Navarro, M., Seidel, K., Sun, Z., Bertonnier-Brouty, L., Amendt, B.A., Klein, O.D., and Michon, F. (2017). Plasticity within the niche ensures the maintenance of a Sox2+ stem cell population in the mouse incisor. Development, dev.155929. 10.1242/dev.155929.

  • Azizoglu, D.B., Chong, D.C., Villasenor, A., Magenheim, J., Barry, D.M., Lee, S., Marty-Santos, L., Fu, S., Dor, Y., and Cleaver, O. (2016). Vascular development in the vertebrate pancreas. Dev Biol 420, 67–78. 10.1016/j.ydbio.2016.10.009.

  • Chapnik, E., Sasson, V., Blelloch, R., and Hornstein, E. (2012). Dgcr8 controls neural crest cells survival in cardiovascular development. Developmental Biology 362, 50–56. 10.1016/j.ydbio.2011.11.008.

  • Zhao, Y., Flandin, P., Vogt, D., Blood, A., Hermesz, E., Westphal, H., and L. R. Rubenstein, J. (2014). Ldb1 is essential for development of Nkx2.1 lineage derived GABAergic and cholinergic neurons in the telencephalon. Developmental Biology 385, 94–106. 10.1016/j.ydbio.2013.10.010.

  • Peuhu, E., Jacquemet, G., Scheele, C.L.G.J., Isomursu, A., Laisne, M.-C., Koskinen, L.M., Paatero, I., Thol, K., Georgiadou, M., Guzmán, C., et al. (2022). MYO10-filopodia support basement membranes at pre-invasive tumor boundaries. Developmental Cell 57, 2350-2364.e7. 10.1016/j.devcel.2022.09.016.

  • Xu, K., Sacharidou, A., Fu, S., Chong, D.C., Skaug, B., Chen, Z.J., Davis, G.E., and Cleaver, O. (2011). Blood vessel tubulogenesis requires Rasip1 regulation of GTPase signaling. Dev Cell 20, 526–539. 10.1016/j.devcel.2011.02.010.

  • Villasenor, A., Marty-Santos, L., Dravis, C., Fletcher, P., Henkemeyer, M., and Cleaver, O. (2012). EphB3 marks delaminating endocrine progenitor cells in the developing pancreas. Developmental Dynamics 241, 1008–1019. 10.1002/dvdy.23781.

  • Westmoreland, J.J., Drosos, Y., Kelly, J., Ye, J., Means, A.L., Washington, M.K., and Sosa-Pineda, B. (2012). Dynamic distribution of claudin proteins in pancreatic epithelia undergoing morphogenesis or neoplastic transformation. Developmental Dynamics 241, 583–594. 10.1002/dvdy.23740.

Virology & Microbiology
Virology & Microbiology

  • Adetunji, S.A., Faustman, D.L., Adams, L.G., Garcia-Gonzalez, D.G., Hensel, M.E., Khalaf, O.H., and Arenas-Gamboa, A.M. (2020). Brucella abortus and Pregnancy in Mice: Impact of Chronic Infection on Fertility and the Role of Regulatory T Cells in Tissue Colonization. Infection and Immunity 88. 10.1128/IAI.00257-20.

  • Hensel, M.E., Chaki, S.P., Stranahan, L., Gregory, A.E., Schaik, E.J. van, Garcia-Gonzalez, D.G., Khalaf, O., Samuel, J.E., and Arenas-Gamboa, A.M. (2020). Intratracheal Inoculation with Brucella melitensis in the Pregnant Guinea Pig Is an Improved Model for Reproductive Pathogenesis and Vaccine Studies. Infection and Immunity 88. 10.1128/IAI.00204-20.

  • Haley, N.J., Mathiason, C.K., Carver, S., Telling, G.C., Zabel, M.D., and Hoover, E.A. (2012). Sensitivity of protein misfolding cyclic amplification versus immunohistochemistry in ante-mortem detection of chronic wasting disease. Journal of General Virology 93, 1141–1150. 10.1099/vir.0.039073-0.

  • Kallies, R., Arbrandt, G., Niklasson, B., and Niedrig, M. (2012). Development and characterization of murine monoclonal antibodies to first and second Ljungan virus genotypes. J. Virol. Methods 184, 27–33. 10.1016/j.jviromet.2012.05.001.

  • Mathiason, C.K., Hayes-Klug, J., Hays, S.A., Powers, J., Osborn, D.A., Dahmes, S.J., Miller, K.V., Warren, R.J., Mason, G.L., Telling, G.C., et al. (2010). B cells and platelets harbor prion infectivity in the blood of deer infected with chronic wasting disease. J. Virol. 84, 5097–5107. 10.1128/JVI.02169-09.

  • Mathiason, C.K., Nalls, A.V., Seelig, D.M., Kraft, S.L., Carnes, K., Anderson, K.R., Hayes-Klug, J., and Hoover, E.A. (2013). Susceptibility of Domestic Cats to Chronic Wasting Disease. J. Virol. 87, 1947–1956. 10.1128/JVI.02592-12.

  • Qi, L., Davis, A.S., Jagger, B.W., Schwartzman, L.M., Dunham, E.J., Kash, J.C., and Taubenberger, J.K. (2012). Analysis by Single-Gene Reassortment Demonstrates that the 1918 Influenza Virus Is Functionally Compatible with a Low-Pathogenicity Avian Influenza Virus in Mice. J. Virol. 86, 9211–9220. 10.1128/JVI.00887-12.

  • Qi, L., Kash, J.C., Dugan, V.G., Wang, R., Jin, G., Cunningham, R.E., and Taubenberger, J.K. (2009). Role of sialic acid binding specificity of the 1918 influenza virus hemagglutinin protein in virulence and pathogenesis for mice. J. Virol. 83, 3754–3761. 10.1128/JVI.02596-08.

  • Tabata, T., Petitt, M., Zydek, M., Fang-Hoover, J., Larocque, N., Tsuge, M., Gormley, M., Kauvar, L.M., and Pereira, L. (2015). Human Cytomegalovirus Infection Interferes with the Maintenance and Differentiation of Trophoblast Progenitor Cells of the Human Placenta. J. Virol. 89, 5134–5147. 10.1128/JVI.03674-14.

  • Memoli, M.J., Tumpey, T.M., Jagger, B.W., Dugan, V.G., Sheng, Z.-M., Qi, L., Kash, J.C., and Taubenberger, J.K. (2009). An early “classical” swine H1N1 influenza virus shows similar pathogenicity to the 1918 pandemic virus in ferrets and mice. Virology 393, 338–345. 10.1016/j.virol.2009.08.021.

  • Qi, L., Kash, J.C., Dugan, V.G., Jagger, B.W., Lau, Y.-F., Sheng, Z.-M., Crouch, E.C., Hartshorn, K.L., and Taubenberger, J.K. (2011). The Ability of Pandemic Influenza Virus Hemagglutinins to Induce Lower Respiratory Pathology is Associated with Decreased Surfactant Protein D Binding. Virology 412, 426–434. 10.1016/j.virol.2011.01.029.

  • Jarungsriapisit, J., Moore, L.J., Taranger, G.L., Nilsen, T.O., Morton, H.C., Fiksdal, I.U., Stefansson, S., Fjelldal, P.G., Evensen, Ø., and Patel, S. (2016). Atlantic salmon (Salmo salar L.) post-smolts challenged two or nine weeks after seawater-transfer show differences in their susceptibility to salmonid alphavirus subtype 3 (SAV3). Virology Journal 13, 66. 10.1186/s12985-016-0520-8.

  • Mateo, M., Hortion, J., Perthame, E., Picard, C., Reynard, S., Journeaux, A., Germain, C., Carnec, X., Baillet, N., Borges-Cardoso, V., et al. (2022). Pathogenesis of recent Lassa virus isolates from lineages II and VII in cynomolgus monkeys. Virulence 13, 654–669. 10.1080/21505594.2022.2060170.

  • Pereira, L., Petitt, M., Fong, A., Tsuge, M., Tabata, T., Fang-Hoover, J., Maidji, E., Zydek, M., Zhou, Y., Inoue, N., et al. (2014). Intrauterine growth restriction caused by underlying congenital cytomegalovirus infection. J. Infect. Dis. 209, 1573–1584. 10.1093/infdis/jiu019.

Immunology & Leukocyte Biology
Immunology & Leukocyte Biology

  • Brinkmann, V., Abu Abed, U., Goosmann, C., and Zychlinsky, A. (2016). Immunodetection of NETs in Paraffin-Embedded Tissue. Front Immunol 7. 10.3389/fimmu.2016.00513.

  • Harms, R.Z., Creer, A.J., Lorenzo-Arteaga, K.M., Ostlund, K.R., and Sarvetnick, N.E. (2017). Interleukin (IL)-18 Binding Protein Deficiency Disrupts Natural Killer Cell Maturation and Diminishes Circulating IL-18. Front Immunol 8. 10.3389/fimmu.2017.01020.

  • Hoffmann, D., Dvorakova, T., Schramme, F., Stroobant, V., and Van den Eynde, B.J. (2020). Tryptophan 2,3-Dioxygenase Expression Identified in Murine Decidual Stromal Cells Is Not Essential for Feto-Maternal Tolerance. Front. Immunol. 11. 10.3389/fimmu.2020.601759.

  • Hensel, M.E., Stranahan, L.W., Edwards, J.F., and Arenas-Gamboa, A.M. (2022). Intratracheal inoculation results in Brucella-associated reproductive disease in male mouse and guinea pig models of infection. Front. Microbiol. 13, 1029199. 10.3389/fmicb.2022.1029199.

  • Adetunji, S.A., Faustman, D.L., Adams, L.G., Garcia-Gonzalez, D.G., Hensel, M.E., Khalaf, O.H., and Arenas-Gamboa, A.M. (2020). Brucella abortus and Pregnancy in Mice: Impact of Chronic Infection on Fertility and the Role of Regulatory T Cells in Tissue Colonization. Infection and Immunity 88. 10.1128/IAI.00257-20.

  • Zhao, M., Ren, K., Xiong, X., Xin, Y., Zou, Y., Maynard, J.C., Kim, A., Battist, A.P., Koneripalli, N., Wang, Y., et al. (2022). Epithelial STAT6 O-GlcNAcylation drives a concerted anti-helminth alarmin response dependent on tuft cell hyperplasia and Gasdermin C. Immunity 55, 623-638.e5. 10.1016/j.immuni.2022.03.009.

  • Hensel, M.E., Chaki, S.P., Stranahan, L., Gregory, A.E., Schaik, E.J. van, Garcia-Gonzalez, D.G., Khalaf, O., Samuel, J.E., and Arenas-Gamboa, A.M. (2020). Intratracheal Inoculation with Brucella melitensis in the Pregnant Guinea Pig Is an Improved Model for Reproductive Pathogenesis and Vaccine Studies. Infection and Immunity 88. 10.1128/IAI.00204-20.

  • Andersson, K.M.E., Svensson, M.N.D., Erlandsson, M.C., Jonsson, I.-M., and Bokarewa, M.I. (2015). Down-regulation of survivin alleviates experimental arthritis. J Leukoc Biol 97, 135–145. 10.1189/jlb.3A0714-317R.

  • Lorenz, N., Loef, E.J., Verdon, D.J., Chen, C.-J.J., Mansell, C.J., Angel, C.E., Brooks, A.E.S., Dunbar, P.R., and Birch, N.P. (2015). Human T cell activation induces synaptic translocation and alters expression of the serine protease inhibitor neuroserpin and its target protease. J Leukoc Biol, jlb.1A0814-392R. 10.1189/jlb.1A0814-392R.

  • Dubicke, A., Fransson, E., Centini, G., Andersson, E., Byström, B., Malmström, A., Petraglia, F., Sverremark-Ekström, E., and Ekman-Ordeberg, G. (2010). Pro-inflammatory and anti-inflammatory cytokines in human preterm and term cervical ripening. J. Reprod. Immunol. 84, 176–185. 10.1016/j.jri.2009.12.004.

  • Andersson, C.K., Bergqvist, A., Mori, M., Mauad, T., Bjermer, L., and Erjefält, J.S. (2011). Mast cell-associated alveolar inflammation in patients with atopic uncontrolled asthma. J. Allergy Clin. Immunol. 127, 905-912.e1-7. 10.1016/j.jaci.2011.01.022.

  • Hoffmann, D., Dvorakova, T., Stroobant, V., Bouzin, C., Daumerie, A., Solvay, M., Klaessens, S., Letellier, M.-C., Renauld, J.-C., Baren, N. van, et al. (2020). Tryptophan 2,3-Dioxygenase Expression Identified in Human Hepatocellular Carcinoma Cells and in Intratumoral Pericytes of Most Cancers. Cancer Immunol Res 8, 19–31. 10.1158/2326-6066.CIR-19-0040.

  • Jacobs, S.O., Sheller-Miller, S., Richardson, L.S., Urrabaz-Garza, R., Radnaa, E., and Menon, R. (2021). Characterizing the immune cell population in the human fetal membrane. American Journal of Reproductive Immunology 85, e13368. 10.1111/aji.13368.

Neuroscience
Neuroscience

  • Fu, Y., He, Y., Phan, K., Bhatia, S., Pickford, R., Wu, P., Dzamko, N., Halliday, G.M., and Kim, W.S. (2022). Increased unsaturated lipids underlie lipid peroxidation in synucleinopathy brain. Acta Neuropathologica Communications 10, 165. 10.1186/s40478-022-01469-7.

  • Lehmann, M., Marklund, M., Bolender, A.-L., Bidhendi, E.E., Zetterström, P., Andersen, P.M., Brännström, T., Marklund, S.L., Gilthorpe, J.D., and Nordström, U. (2020). Aggregate-selective antibody attenuates seeded aggregation but not spontaneously evolving disease in SOD1 ALS model mice. Acta Neuropathologica Communications 8, 161. 10.1186/s40478-020-01032-2.

  • Fu, Y., Zhou, L., Li, H., Hsiao, J.-H.T., Li, B., Tanglay, O., Auwyang, A.D., Wang, E., Feng, J., Kim, W.S., et al. (2022). Adaptive structural changes in the motor cortex and white matter in Parkinson’s disease. Acta Neuropathol 144, 861–879. 10.1007/s00401-022-02488-3.

  • Moszczynski, A.J., Harvey, M., Fulcher, N., de Oliveira, C., McCunn, P., Donison, N., Bartha, R., Schmid, S., Strong, M.J., and Volkening, K. (2019). Synergistic toxicity in an in vivo model of neurodegeneration through the co-expression of human TDP-43M337V and tauT175D protein. Acta Neuropathologica Communications 7, 170. 10.1186/s40478-019-0816-1.

  • Murray, H.C., Dieriks, B.V., Swanson, M.E.V., Anekal, P.V., Turner, C., Faull, R.L.M., Belluscio, L., Koretsky, A., and Curtis, M.A. (2020). The unfolded protein response is activated in the olfactory system in Alzheimer’s disease. Acta Neuropathologica Communications 8, 109. 10.1186/s40478-020-00986-7.

  • Habiba, U., Morley, J., Krockenberger, M., Summers, B.A., and Tayebi, M. (2022). A sequential deposition of amyloid beta oligomers, plaques and phosphorylated tau occurs throughout life in the canine retina. Ageing and Neurodegenerative Diseases 2, 7. 10.20517/and.2022.06.

  • Habiba, U., Descallar, J., Kreilaus, F., Adhikari, U.K., Kumar, S., Morley, J.W., Bui, B.V., Koronyo-Hamaoui, M., and Tayebi, M. (2021). Detection of retinal and blood Aβ oligomers with nanobodies. Alzheimer’s & Dementia: Diagnosis, Assessment & Disease Monitoring 13, e12193. 10.1002/dad2.12193.

  • Larabee, C.M., Georgescu, C., Wren, J.D., and Plafker, S.M. (2015). Expression profiling of the ubiquitin conjugating enzyme UbcM2 in murine brain reveals modest age-dependent decreases in specific neurons. BMC Neuroscience 16, 76. 10.1186/s12868-015-0194-y.

  • Habiba, U., Ozawa, M., Chambers, J.K., Uchida, K., Descallar, J., Nakayama, H., Summers, B.A., Morley, J.W., and Tayebi, M. (2021). Neuronal Deposition of Amyloid-β Oligomers and Hyperphosphorylated Tau Is Closely Connected with Cognitive Dysfunction in Aged Dogs. Journal of Alzheimer’s Disease Reports 5, 749–760. 10.3233/ADR-210035.

  • Yang, P., Min, X.-L., Mohammadi, M., Turner, C., Faull, R., Waldvogel, H., Dragunow, M., and Guan, J. (2017). Endothelial Degeneration of Parkinson’s Disease is Related to Alpha-Synuclein Aggregation. Journal of Alzheimers Disease & Parkinsonism 7, 1–10. 10.4172/2161-0460.1000370.

  • Yang, P., Waldvogel, H., Turner, C., Faull, R., Dragunow, M., and Guan, J. (2017). Vascular Remodelling is Impaired in Parkinson Disease. Journal of Alzheimers Disease & Parkinsonism 7, 1–10. 10.4172/2161-0460.1000313.

  • Davidson, J.O., Draghi, V., Whitham, S., Dhillon, S.K., Wassink, G., Bennet, L., and Gunn, A.J. (2018). How long is sufficient for optimal neuroprotection with cerebral cooling after ischemia in fetal sheep? J Cereb Blood Flow Metab 38, 1047–1059. 10.1177/0271678X17707671.

Cancer Research
Cancer Research

  • Elgström, E., Ohlsson, T.G., and Eriksson, S.E. (2017). Cytokine evaluation in untreated and radioimmunotherapy-treated tumors in an immunocompetent rat model. Tumour Biol. 39, 1010428317697550. 10.1177/1010428317697550.

  • Andries, V., De Keuckelaere, E., Staes, K., Hochepied, T., Taminau, J., Lemeire, K., Birembaut, P., Berx, G., and van Roy, F. (2019). A new mouse model to study the role of ectopic Nanos3 expression in cancer. BMC Cancer 19, 598. 10.1186/s12885-019-5807-x.

  • Honeth, G., Bendahl, P.-O., Ringnér, M., Saal, L.H., Gruvberger-Saal, S.K., Lövgren, K., Grabau, D., Fernö, M., Borg, Å., and Hegardt, C. (2008). The CD44+/CD24- phenotype is enriched in basal-like breast tumors. Breast Cancer Research 10, R53. 10.1186/bcr2108.

  • Rennstam, K., McMichael, N., Berglund, P., Honeth, G., Hegardt, C., Rydén, L., Luts, L., Bendahl, P.-O., and Hedenfalk, I. (2010). Numb protein expression correlates with a basal-like phenotype and cancer stem cell markers in primary breast cancer. Breast Cancer Res. Treat. 122, 315–324. 10.1007/s10549-009-0568-x.

  • Chakroborty, D., Goswami, S., Fan, H., Frankel, W.L., Basu, S., and Sarkar, C. (2022). Neuropeptide Y, a paracrine factor secreted by cancer cells, is an independent regulator of angiogenesis in colon cancer. Br J Cancer 127, 1440–1449. 10.1038/s41416-022-01916-1.

  • Mao, X., McManaway, S., Jaiswal, J.K., Hong, C.R., Wilson, W.R., and Hicks, K.O. (2019). Schedule-dependent potentiation of chemotherapy drugs by the hypoxia-activated prodrug SN30000. Cancer Biology & Therapy 20, 1258–1269. 10.1080/15384047.2019.1617570.

  • Zhou, D., Conrad, C., Xia, F., Park, J.-S., Payer, B., Yin, Y., Lauwers, G.Y., Thasler, W., Lee, J.T., Avruch, J., et al. (2009). Mst1 and Mst2 maintain hepatocyte quiescence and suppress hepatocellular carcinoma development through inactivation of the Yap1 oncogene. Cancer Cell 16, 425–438. 10.1016/j.ccr.2009.09.026.

  • Liu, Y., Fu, K., Wier, E.M., Lei, Y., Hodgson, A., Xu, D., Xia, X., Zheng, D., Ding, H., Sears, C.L., et al. (2022). Bacterial Genotoxin Accelerates Transient Infection–Driven Murine Colon Tumorigenesis. Cancer Discovery 12, 236–249. 10.1158/2159-8290.CD-21-0912.

  • Hoffmann, D., Dvorakova, T., Stroobant, V., Bouzin, C., Daumerie, A., Solvay, M., Klaessens, S., Letellier, M.-C., Renauld, J.-C., Baren, N. van, et al. (2020). Tryptophan 2,3-Dioxygenase Expression Identified in Human Hepatocellular Carcinoma Cells and in Intratumoral Pericytes of Most Cancers. Cancer Immunol Res 8, 19–31. 10.1158/2326-6066.CIR-19-0040.

  • Barok, M., Le Joncour, V., Martins, A., Isola, J., Salmikangas, M., Laakkonen, P., and Joensuu, H. (2020). ARX788, a novel anti-HER2 antibody-drug conjugate, shows anti-tumor effects in preclinical models of trastuzumab emtansine-resistant HER2-positive breast cancer and gastric cancer. Cancer Lett 473, 156–163. 10.1016/j.canlet.2019.12.037.

  • Winter, J., Nyskohus, L., Young, G.P., Hu, Y., Conlon, M.A., Bird, A.R., Topping, D.L., and Leu, R.K.L. (2011). Inhibition by Resistant Starch of Red Meat–Induced Promutagenic Adducts in Mouse Colon. Cancer Prev Res 4, 1920–1928. 10.1158/1940-6207.CAPR-11-0176.

  • Chan, S.W., Lim, C.J., Guo, K., Ng, C.P., Lee, I., Hunziker, W., Zeng, Q., and Hong, W. (2008). A Role for TAZ in Migration, Invasion, and Tumorigenesis of Breast Cancer Cells. Cancer Res 68, 2592–2598. 10.1158/0008-5472.CAN-07-2696.

  • Renganathan, B., Durairaj, V., Kirman, D.C., Esubonteng, P.K.A., Ang, S.K., and Ge, R. (2018). Recombinant TSR1 of ADAMTS5 Suppresses Melanoma Growth in Mice via an Anti-angiogenic Mechanism. Cancers 10, 192. 10.3390/cancers10060192.

  • Alagesan, B., Contino, G., Guimaraes, A.R., Corcoran, R.B., Deshpande, V., Wojtkiewicz, G.R., Hezel, A.F., Wong, K.-K., Loda, M., Weissleder, R., et al. (2015). Combined MEK and PI3K Inhibition in a Mouse Model of Pancreatic Cancer. Clin Cancer Res 21, 396–404. 10.1158/1078-0432.CCR-14-1591.

  • Lampinen, A.M., Virman, J.P., Bono, P., Luukkaala, T.H., Sunela, K.L., Kujala, P.M., Saharinen, P., and Kellokumpu-Lehtinen, P.-L.I. (2017). Novel Angiogenesis Markers as Long-Term Prognostic Factors in Patients With Renal Cell Cancer. Clinical Genitourinary Cancer 15, e15–e24. 10.1016/j.clgc.2016.07.008.

  • Deng, H., Zeng, J., Zhang, T., Gong, L., Zhang, H., Cheung, E., Jones, C., and Li, G. (2018). Histone H3.3K27M Mobilizes Multiple Cancer/Testis (CT) Antigens in Pediatric Glioma. Mol Cancer Res 16, 623–633. 10.1158/1541-7786.MCR-17-0460.

  • Alferez, D., Wilkinson, R.W., Watkins, J., Poulsom, R., Mandir, N., Wedge, S.R., Pyrah, I.T., Smith, N.R., Jackson, L., Ryan, A.J., et al. (2008). Dual inhibition of VEGFR and EGFR signaling reduces the incidence and size of intestinal adenomas in ApcMin/+ mice. Mol Cancer Ther 7, 590–598. 10.1158/1535-7163.MCT-07-0433.

  • Jung, H.Y., Yoo, D.Y., Nam, S.M., Kim, J.W., Kim, W., Kwon, H.J., Lee, K.Y., Choi, J.H., Kim, D.W., Yoon, Y.S., et al. (2019). Postnatal changes in constitutive cyclooxygenase‑2 expression in the mice hippocampus and its function in synaptic plasticity. Molecular Medicine Reports 19, 1996–2004. 10.3892/mmr.2019.9867.

  • Causse, S.Z., Marcion, G., Chanteloup, G., Uyanik, B., Boudesco, C., Grigorash, B.B., Douhard, R., Dias, A.M.M., Dumetier, B., Dondaine, L., et al. (2019). HSP110 translocates to the nucleus upon genotoxic chemotherapy and promotes DNA repair in colorectal cancer cells. Oncogene 38, 2767–2777. 10.1038/s41388-018-0616-2.

  • Soejima, S., Kondo, K., Tsuboi, M., Muguruma, K., Tegshee, B., Kawakami, Y., Kajiura, K., Kawakita, N., Toba, H., Yoshida, M., et al. (2021). GAD1 expression and its methylation as indicators of malignant behavior in thymic epithelial tumors. Oncology Letters 21, 1–11. 10.3892/ol.2021.12744.

  • Chesney, J., Clark, J., Klarer, A.C., Imbert-Fernandez, Y., Lane, A.N., Telang, S., Chesney, J., Clark, J., Klarer, A.C., Imbert-Fernandez, Y., et al. (2014). Fructose-2,6-Bisphosphate synthesis by 6-Phosphofructo-2-Kinase/Fructose-2,6-Bisphosphatase 4 (PFKFB4) is required for the glycolytic response to hypoxia and tumor growth. Oncotarget 5, 6670–6686. 10.18632/oncotarget.2213.

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