Chapter 5 │ Page 197 122. H. Li, G. Spagnol, T. K. Pontifex, J. M. Burt, P. L. Sorgen, Chemical shift assignments of the connexin37 carboxyl terminal domain, Biomol. NMR Assign. 11 (2017) 137-141. 123. A. Caufriez, D. Böck, C. Martin, S. Ballet, M. Vinken, Peptide-based targeting of connexins and pannexins for therapeutic purposes, Expert Opin. Drug Discov. 15 (2020) 1213-1222. 124. Q. Lin, K. Balasubramanian, D. Fan, S. J. Kim, L. Guo, H. Wang, M. Bar-El, K. D. Aldape, I. J. Fidler, Reactive astrocytes protect melanoma cells from chemotherapy by sequestering intracellular calcium through gap junction communication channels, Neoplasia 12 (2010) 748-754. 125. M. M. Vance and L. M. Wiley, Gap junction intercellular communication mediates the competitive cell proliferation disadvantage of irradiated mouse preimplantation embryos in aggregation chimeras, J. Radiat. Res. 152 (1999) 544-551. 126. M. Mesnil, C. Piccoli, H. Yamasaki, A tumor suppressor gene, Cx26, also mediates the bystander e ect in HeLa cells, Cancer Res. 57 (1997) 2929-2932. 127. Y-W. Wang, Q. Wang, S-Z. Zhang, Y. Zhang, L. Tao, Baicalein increases the cytotoxicity of cisplatin by enhancing gap junction intercellular communication, Mol. Med. Report. 10 (2014) 515-521. 128. Y. Zhang, X-Y. Wang, Q. Wang, H. Ge, L. Tao, Propofol depresses cisplatin cytotoxicity via the inhibition of gap junctions, Mol. Med. Report. 13 (2016) 4715-4720. 129. M. L. Dustin and E. O. Long, Cytotoxic immunological synapses, Immunol. Rev. 235 (2010) 24-34. 130. A. Tittarelli, A. Mendoza-Naranjo, M. Farías, I. Guerrero, F. Ihara, E. Wennerberg, S. Riquelme, A. Gleisner, A. Kalergis, A. Lundqvist, M. N. López, B. J. Chambers, F. Salazar-Onfray, Gap Junction Intercellular Communications Regulate NK Cell Activation and Modulate NK Cytotoxic Capacity, J. Immunol. 192 (2014) 1313-1319. 131. A. Mendoza-Naranjo, P. J. Saez, C. C. Johansson, M. Ramirez, D. Mandakovic, C. Pereda, M. N. Lopez, R. Kiessling, J. C. Saez, F. Salazar-Onfray, Functional gap junctions facilitate melanoma antigen transfer and cross-presentation between human dendritic cells, J. Immunol. 178 (2007) 6949-6957. 132. A. Mendoza-Naranjo, G. Bouma, C. Pereda, M. Ramirez, K. F. Webb, A. Tittarelli, M. N. Lopez, A. M. Kalergis, A. J. Thrasher, D. L. Becker, F. Salazar-Onfray, Functional Gap Junctions Accumulate at the Immunological Synapse and Contribute to T Cell Activation, J. Immunol. 187 (2011) 3121-3132. 133. F. Saccheri, C. Pozzi, F. Avogadri, S. Barozzi, M. Faretta, P. Fusi, M. Rescigno, Bacteriainduced gap junctions in tumors favor antigen cross-presentation and antitumor immunity, Sci. Transl. Med. 2 (2010) 44ra57. 134. A. Tittarelli, B. Janji, K. Van Moer, M. Z. Noman, S. Chouaib, The Selective Degradation of Synaptic Connexin 43 Protein by Hypoxia-induced Autophagy Impairs Natural Killer Cell-mediated Tumor Cell Killing, J. Biol. Chem. 290 (2015) 23670-23679. 135. F. Hofmann, M. Navarrete, J. Álvarez, I. Guerrero, M. A. Gleisner, A. Tittarelli, F. SalazarOnfray, Cx43-Gap Junctions Accumulate at the Cytotoxic Immunological Synapse Enabling Cytotoxic T Lymphocyte Melanoma Cell Killing, Int. J. Mol. Sci. 20 (2019) 4509. 136. M. N. Huang, L. T. Nicholson, K. A. Batich, A. M. Swartz, D. Kopin, S. Wellford, V. K. Prabhakar, K. Woroniecka, S. K. Nair, P. E. Fecci, J. H. Sampson, M. D. Gunn, Antigen-
RkJQdWJsaXNoZXIy MTk4NDMw