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Mohamed, I.A., El-Badri, N., and Zaher, A. (2019). Wnt Signaling: The double-edged sword diminishing the potential of stem cell therapy in congenital heart disease.Life Sci116937.
Wang, S., Gao, Y., Song, X., Ma, X., Zhu, X., Mao, Y., Yang, Z., Ni, J., Li, H., Malanowski, K.E., et al. (2015). Wnt signaling-mediated redox regulation maintains the germ line stem cell differentiation niche.Elife4.
Hadi, F., Akrami, H., Shahpasand, K., and Fattahi, M.R. (2020). Wnt signalling pathway and tau phosphorylation: A comprehensive study on known connections.Cell Biochem Funct.
Bu, L., Yang, Q., McMahon, L., Xiao, G.-Q., and Li, F. (2019). Wnt suppressor and stem cell regulator TCF7L1 is a sensitive immunohistochemical marker to differentiate testicular seminoma from non-seminomatous germ cell tumor.Exp Mol Pathol104293.
Moti, N., Yu, J., Boncompain, G., Perez, F., and Virshup, D.M. (2019). Wnt traffic from endoplasmic reticulum to filopodia.Plos One14, e0212711.
Goksel, G., Bilir, A., Uslu, R., Akbulut, H., Guven, U., and Oktem, G. (2014). WNT1 gene expression alters in heterogeneous population of prostate cancer cells; decreased expression pattern observed in CD133+/CD44+ prostate cancer stem cell spheroids.J Buon19, 207-14.
Long, A., Giroux, V., Whelan, K.A., Tétreault, M.-P., Tanaka, K., Lee, J.-S., Klein-Szanto, A.J., Nakagawa, H., and Rustgi, A.K. (2015). WNT10a promotes an invasive and self-renewing phenotype in esophageal squamous cell carcinoma.Carcinogenesis.
Jiang, W., Zhang, D., Bursac, N., and Zhang, Y. (2013). WNT3 Is a Biomarker Capable of Predicting the Definitive Endoderm Differentiation Potential of hESCs.Stem Cell Reports1, 46-52.
Wang, C., Han, X., Zhou, Z., Uyunbilig, B., Huang, X., Li, R., and Li, X. (2019). Wnt3a Activates the WNT-YAP/TAZ Pathway to Sustain CDX2 Expression in Bovine Trophoblast Stem Cells.Dna Cell Biol.
Volleman, T.Nico Emmie, Schol, J., Morita, K., Sakai, D., and Watanabe, M. (2020). Wnt3a and wnt5a as Potential Chondrogenic Stimulators for Nucleus Pulposus Cell Induction: A Comprehensive Review.Neurospine17, 19-35.
Gertow, K., Hirst, C.E., Yu, Q.C., Ng, E.S., Pereira, L.A., Davis, R.P., Stanley, E.G., and Elefanty, A.G. (2013). WNT3A Promotes Hematopoietic or Mesenchymal Differentiation from hESCs Depending on the Time of Exposure.Stem Cell Reports1, 53-65.
Sun, T.-J., Tao, R., Han, Y.-Q., Xu, G., Liu, J., and Han, Y.-F. (2015). Wnt3a promotes human umbilical cord mesenchymal stem cells to differentiate into epidermal-like cells.Eur Rev Med Pharmacol Sci19, 86-91.
Hwang, Y., Suk, S., Shih, Y.-R.Vernon, Seo, T., Du, B., Xie, Y., Li, Z., and Varghese, S. (2014). WNT3A promotes myogenesis of human embryonic stem cells and enhances in vivo engraftment.Sci Rep4, 5916.
Duinhouwer, L.E., Tüysüz, N., Rombouts, E.W.J.C., Borg, M.N.D.Ter, Mastrobattista, E., Spanholtz, J., Cornelissen, J.J., Berge, D.Ten, and Braakman, E. (2015). Wnt3a Protein Reduces Growth Factor-Driven Expansion of Human Hematopoietic Stem and Progenitor Cells in Serum-Free Cultures.Plos One10, e0119086.
Leucht, P., Jiang, J., Cheng, D., Liu, B., Dhamdhere, G., Fang, M.Yang, Monica, S.D., Urena, J.J., Cole, W., Smith, L.R., et al. (2013). Wnt3a reestablishes osteogenic capacity to bone grafts from aged animals.J Bone Joint Surg Am95, 1278-88.
Han, C., Li, J., Wang, C., Ouyang, H., Ding, X., Liu, Y., Chen, S., and Luo, L. (2018). Wnt5a Contributes to the Differentiation of Human Embryonic Stem Cells into Lentoid Bodies Through the Noncanonical Wnt/JNK Signaling Pathway.Invest Ophthalmol Vis Sci59, 3449-3460.
Hung, T.-H., Hsu, S.-C., Cheng, C.-Y., Choo, K.-B., Tseng, C.-P., Chen, T.-C., Lan, Y.-W., Huang, T.-T., Lai, H.-C., Chen, C.-M., et al. (2014). Wnt5A regulates ABCB1 expression in multidrug-resistant cancer cells through activation of the non-canonical PKA/β-catenin pathway.Oncotarget.
C Bentzinger, F., von Maltzahn, J., Dumont, N.A., Stark, D.A., Wang, Y.Xin, Nhan, K., Frenette, J., Cornelison, D., and Rudnicki, M.A. (2014). Wnt7a stimulates myogenic stem cell motility and engraftment resulting in improved muscle strength.J Cell Biol.
Grainger, S., Richter, J., Palazón, R.Espín, Pouget, C., Lonquich, B., Wirth, S., Grassme, K.Sabine, Herzog, W., Swift, M.R., Weinstein, B.M., et al. (2016). Wnt9a Is Required for the Aortic Amplification of Nascent Hematopoietic Stem Cells.Cell Rep17, 1595-1606.
Yeh, Y., Guo, Q., Connelly, Z., Cheng, S., Yang, S., Prieto-Dominguez, N., and Yu, X. (2019). Wnt/Beta-Catenin Signaling and Prostate Cancer Therapy Resistance.Adv Exp Med Biol1210, 351-378.
Cook, D.A., Fellgett, S.W., Pownall, M.E., O'Shea, P.J., and Genever, P.G. (2013). Wnt-dependent osteogenic commitment of bone marrow stromal cells using a novel GSK3β inhibitor.Stem Cell Res12, 415-427.
Fujimaki, S., Hidaka, R., Asashima, M., Takemasa, T., and Kuwabara, T. (2014). Wnt-Mediated Satellite Cell Conversion in Adult and Aged Mice Following Voluntary Wheel Running.J Biol Chem.
Ma, L., Wang, Y., Hui, Y., Du, Y., Chen, Z., Feng, H., Zhang, S., Li, N., Song, J., Fang, Y., et al. (2019). WNT/NOTCH Pathway Is Essential for the Maintenance and Expansion of Human MGE Progenitors.Stem Cell Reports.
Zhong, Z., Yu, J., Virshup, D.M., and Madan, B. (2020). Wnts and the hallmarks of cancer.Cancer Metastasis Rev.
Gonzalez-Fernandez, C., Arevalo-Martin, A., Paniagua-Torija, B., Ferrer, I., Rodriguez, F.J., and Garcia-Ovejero, D. (2016). Wnts Are Expressed in the Ependymal Region of the Adult Spinal Cord.Mol Neurobiol.