Akum, B. F., Chen, M., Gunderson, S. I., Riefler, G. M., Scerri-Hansen, M. M., Firestein, B. L. (2004). Cypin regulates dendrite patterning in hippocampal neurons by promoting microtubule assembly. Nature Neuroscience, 7(2), 145–152. doi:
10.1038/nn1179.
Google Scholar |
Crossref |
Medline Aloy, P., Companys, V., Vendrell, J., Aviles, F. X., Fricker, L. D., Coll, M., Gomis-Ruth, F. X. (2001). The crystal structure of the inhibitor-complexed carboxypeptidase D domain II and the modeling of regulatory carboxypeptidases. Journal of Biological Chemistry, 276(19), 16177–16184. doi:
10.1074/jbc.M011457200. Google Scholar |
Crossref |
Medline Askham, J. M. (2002). Evidence that an interaction between EB1 and p150Glued Is required for the formation and maintenance of a radial microtubule array anchored at the centrosome. Molecular Biology of the Cell, 13(10), 3627–3645. doi:
10.1091/mbc.e02-01-0061. Google Scholar |
Crossref |
Medline Audebert, S., Desbruyeres, E., Gruszczynski, C., Koulakoff, A., Gros, F., Denoulet, P., Edde, B. (1993). Reversible polyglutamylation of alpha- and beta-tubulin and microtubule dynamics in mouse brain neurons. Molecular Biology of the Cell, 4(6), 615–626. doi:
10.1091/mbc.4.6.615. Google Scholar |
Crossref |
Medline Audebert, S., Koulakoff, A., Berwald-Netter, Y., Gros, F., Denoulet, P., Edde, B. (1994). Developmental regulation of polyglutamylated alpha- and beta-tubulin in mouse brain neurons. Journal of Cell Science, 107(Pt 8), 2313–2322.
Google Scholar |
Crossref |
Medline Banker, G., Goslin, K. (1988). Developments in neuronal cell culture. Nature, 336(6195), 185–186. doi:
10.1038/336185a0. Google Scholar |
Crossref |
Medline Bedoni, N., Haer-Wigman, L., Vaclavik, V., Tran, V. H., Farinelli, P., Balzano, S., Royer-Bertrand, B., El-Asrag, M. E., Bonny, O., Ikonomidis, C., Litzistorf, Y., Nikopoulos, K., Yioti, G. G., Stefaniotou, M. I., McKibbin, M., Booth, A. P., Ellingford, J. M., Black, G.C., Toomes, C., Rivolta, C. (2016). Mutations in the polyglutamylase gene TTLL5, expressed in photoreceptor cells and spermatozoa, are associated with cone-rod degeneration and reduced male fertility. Human Molecular Genetics, 25(20), 4546–4555. doi:
10.1093/hmg/ddw282.
Google Scholar |
Crossref |
Medline Berrueta, L., Tirnauer, J. S., Schuyler, S. C., Pellman, D., Bierer, B. E. (1999). The APC-associated protein EB1 associates with components of the dynactin complex and cytoplasmic dynein intermediate chain. Current Biology, 9(8), 425–428. doi:
10.1016/s0960-9822(99)80190-0. Google Scholar |
Crossref |
Medline Birch, N. P., Rodriguez, C., Dixon, J.E., Mezey, E. (1990). Distribution of carboxypeptidase H messenger RNA in rat brain using in situ hybridization histochemistry: Implications for neuropeptide biosynthesis. Molecular Brain Research, 7(1), 53–59. doi:
10.1016/0169-328x(90)90073-m. Google Scholar |
Crossref |
Medline Bonnet, C. (2001). Differential binding regulation of microtubule-associated proteins MAP1A, MAP1B, and MAP2 by tubulin polyglutamylation. Journal of Biological Chemistry, 276(16), 12839–12848. doi:
10.1074/jbc.M011380200. Google Scholar |
Crossref |
Medline Boucher, D., Larcher , J. C., Gros, F., Denoulet, P. (1994). Polyglutamylation of tubulin as a progressive regulator of in vitro interactions between the microtubule-associated protein Tau and tubulin. Biochemistry, 33(41), 12471–12477. doi:
10.1021/bi00207a014. Google Scholar |
Crossref |
Medline Carrel, D., Hernandez, K., Kwon, M., Mau, C., Trivedi, M. P., Brzustowicz, L. M., Firestein, B. L. (2015). Nitric oxide synthase 1 adaptor protein, a protein implicated in schizophrenia, controls radial migration of cortical neurons. Biological Psychiatry, 77(11), 969–978. doi:
10.1016/j.biopsych.2014.10.016. Google Scholar |
Crossref |
Medline Cawley, N. X., Wetsel, W. C., Murthy, S. R. K., Park, J. J., Pacak, K., Loh, Y. P. (2012). New roles of carboxypeptidase E in endocrine and neural function and cancer. Endocrine Reviews, 33(2), 216–253. doi:
10.1210/er.2011-1039. Google Scholar |
Crossref |
Medline Charych, E. I., Akum, B. F., Goldberg, J. S., Jörnsten, R. J., Rongo, C, Zheng, J. Q., Firestein, B. L. (2006). Activity-Independent regulation of dendrite patterning by postsynaptic density protein PSD-95. Journal of Neuroscience, 26(40), 10164–10176. doi:
10.1523/JNEUROSCI.2379-06.2006. Google Scholar |
Crossref |
Medline Chen, H., Firestein, B. L. (2007). Rhoa regulates dendrite branching in hippocampal neurons by decreasing cypin protein levels. Journal of Neuroscience, 27(31), 8378–8386. doi:
10.1523/JNEUROSCI.0872-07.2007. Google Scholar |
Crossref |
Medline Cheng, Y., Cawley, N. X., Loh, Y. P. (2013). Carboxypeptidase E/NFα1: A New neurotrophic factor against oxidative stress-induced apoptotic cell death mediated by ERK and PI3-K/AKT pathways. PLoS ONE, 8(8), e71578. doi:
10.1371/journal.pone.0071578. Google Scholar |
Crossref |
Medline Cheng, Y., Cawley, N. X., Yanik, T., Murthy , S. R. K., Liu, C., Kasikci , F., Abebe, D., Loh, Y. P. (2016). A human carboxypeptidase E/NF-α1 gene mutation in an Alzheimer's Disease patient leads to dementia and depression in mice. Translational Psychiatry, 6(12), e973–e973. doi:
10.1038/tp.2016.237. Google Scholar |
Crossref |
Medline Cheng, Y., Rodriguiz, R. M., Murthy , S. R. K., Senatorov , V., Thouennon , E., Cawley , N. X., Aryal , D. K., Ahn, S., Lecka-Czernik , B., Wetsel , W. C., Loh, Y. P. (2015). Neurotrophic factor-α1 prevents stress-induced depression through enhancement of neurogenesis and is activated by rosiglitazone. Molecular Psychiatry, 20(6), 744–754. doi:
10.1038/mp.2014.136. Google Scholar |
Crossref |
Medline Dhanvantari, S., Shen, F.-S., Adams, T., Snell, C. R., Zhang, C., Mackin, R. B., Morris, S. J., Loh, Y. P. (2003). Disruption of a receptor-mediated mechanism for intracellular sorting of proinsulin in familial hyperproinsulinemia. Molecular Endocrinology, 17(9), 1856–1867. doi:
10.1210/me.2002-0380. Google Scholar |
Crossref |
Medline Dotti, C., Sullivan, C., Banker, G. (1988). The establishment of polarity by hippocampal neurons in culture. Journal of Neuroscience, 8(4), 1454–1468. doi:
10.1523/JNEUROSCI.08-04-01454.1988. Google Scholar |
Crossref |
Medline Fricker, L. D., Snyder, S. H. (1982). Enkephalin convertase: Purification and characterization of a specific enkephalin-synthesizing carboxypeptidase localized to adrenal chromaffin granules. Proceedings of the National Academy of Sciences, 79(12), 3886–3890. doi:
10.1073/pnas.79.12.3886. Google Scholar |
Crossref |
Medline Gomis-Ruth, F. X., Companys, V., Qian, Y., Fricker, L. D., Vendrell, J., Avilés, F. X., Coll, M. (1999). Crystal structure of avian carboxypeptidase D domain II: A prototype for the regulatory metallocarboxypeptidase subfamily. The EMBO Journal, 18(21), 5817–5826. doi:
10.1093/emboj/18.21.5817. Google Scholar |
Crossref |
Medline Harris, A., Morgan, J. I., Pecot, M., Soumare, A., Osborne, A., Soares, H. D. (2000). Regenerating motor neurons express Nna1, a novel ATP/GTP-binding protein related to zinc carboxypeptidases. Molecular and Cellular Neuroscience, 16(5), 578–596. doi:
10.1006/mcne.2000.0900. Google Scholar |
Crossref |
Medline |
ISI Hook, V. Y. H., Eiden, L. E., Brownstein, M. J. (1982). A carboxypeptidase processing enzyme for enkephalin precursors. Nature, 295(5847), 341–342. doi:
10.1038/295341a0. Google Scholar |
Crossref |
Medline Hutton, J. C., Davidson, H. W., Peshavaria, M. (1987). Proteolytic processing of chromogranin A in purified insulin granules. Formation of a 20 kDa N-terminal fragment (betagranin) by the concerted action of a Ca2 + -dependent endopeptidase and carboxypeptidase H (EC 3.4.17.10). Biochemical Journal, 244(2), 457–464. doi:
10.1042/bj2440457. Google Scholar |
Crossref |
Medline Ikegami, K., Mukai, M., Tsuchida, J.-I., Heier, R. L., Macgregor, G. R., Setou, M. (2006). TTLL7 Is a mammalian β-tubulin polyglutamylase required for growth of MAP2-positive neurites. Journal of Biological Chemistry, 281(41), 30707–30716. doi:
10.1074/jbc.M603984200. Google Scholar |
Crossref |
Medline Janke, C., Rogowski, K., Wloga, D., Regnard, C., Kajava, A. V., Strub, J.-M., Temurak, N., van Dijk, J., Boucher, D., van Dorsselaer, A., Suryavanshi, S., Gaertig, J., Eddé, B. (2005). Tubulin polyglutamylase enzymes Are members of the TTL domain protein family. Science (new York, N Y ), 308(5729), 1758–1762. doi:
10.1126/science.1113010. Google Scholar |
Crossref |
Medline Kalinina, E., Biswas, R., Berezniuk, I., Hermoso, A., Aviles, F. X., Fricker, L. D. (2007). A novel subfamily of mouse cytosolic carboxypeptidases. The FASEB Journal, 21(3), 836–850. doi:
10.1096/fj.06-7329com. Google Scholar |
Crossref |
Medline Kutzing, M. K., Langhammer, C. G., Luo, V., Lakdawala, H., Firestein, B. L. (2010). Automated sholl analysis of digitized neuronal morphology at multiple scales. Journal of Visualized Experiments, 45, 2354–2354. doi:
10.3791/2354. Google Scholar |
Crossref Langhammer, C. G., Previtera, M. L., Sweet, E. S., Sran, S. S., Chen, M., Firestein, B. L. (2010). Automated sholl analysis of digitized neuronal morphology at multiple scales: Whole cell sholl analysis versus sholl analysis of arbor subregions. Cytometry Part A, 77A(12), 1160–1168. doi:
10.1002/cyto.a.20954. Google Scholar |
Crossref Larcher, J.-C., Boucher, D., Lazereg, S., Gros, F., Denoulet, P. (1996). Interaction of kinesin motor domains with α- and β-tubulin subunits at a Tau-independent binding site. Journal of Biological Chemistry, 271(36), 22117–22124. doi:
10.1074/jbc.271.36.22117. Google Scholar |
Crossref |
Medline Lee, G. S., He, Y., Dougherty, E. J., Jimenez-Movilla, M., Avella, M., Grullon, S., Sharlin, D. S., Guo, C., Blackford Jr, J. R., Awasthi, S., Zhang, Z., Armstrong, S. P., London, E. C., Chen, W., Dean, J., Simons Jr, S. S. (2013). Disruption of Ttll5/stamp gene (tubulin tyrosine ligase-like protein 5/SRC-1 and TIF2-associated modulatory protein gene) in male mice causes sperm malformation and infertility. Journal of Biological Chemistry, 288(21), 15167–15180. doi:
10.1074/jbc.M113.453936. Google Scholar |
Crossref |
Medline Liang, C., Carrel, D., Omelchenko, A., Kim, H., Patel, A., Fanget, I., Firestein, B.L. (2019). Cortical neuron migration and dendrite morphology are regulated by carboxypeptidase E. Cerebral Cortex, 29(7), 2890–28903. doi:
10.1093/cercor/bhy155. Google Scholar |
Crossref |
Medline Loh, Y. P., Maldonado, A., Zhang, C., Tam, W. H., Cawley, N. (2002). Mechanism of sorting proopiomelanocortin and proenkephalin to the regulated secretory pathway of neuroendocrine cells. Annals of the New York Academy of Sciences, 971(1), 416–425. doi:
10.1111/j.1749-6632.2002.tb04504.x. Google Scholar |
Crossref |
Medline Lou, H., Kim, S.-K., Zaitsev, E., Snell, C. R., Lu, B., Loh, Y. P. (2005). Sorting and activity-dependent secretion of BDNF require interaction of a specific motif with the sorting receptor carboxypeptidase E. Neuron, 45(2), 245–255. doi:
10.1016/j.neuron.2004.12.037. Google Scholar |
Crossref |
Medline Penazzi, L., Bakota, L., Brandt, R. (2016). Microtubule dynamics in neuronal development, plasticity, and neurodegeneration. International Review of Cell and Molecular Biology, 321, 89–169. doi:
10.1016/bs.ircmb.2015.09.004. Google Scholar |
Crossref |
Medline Quintyne, N. J., Gill, S. R., Eckley, D. M., Crego, C. L., Compton, D. A., Schroer, T. A. (1999). Dynactin Is required for microtubule anchoring at centrosomes. Journal of Cell Biology, 147(2), 321–334. doi:
10.1083/jcb.147.2.321. Google Scholar |
Crossref |
Medline Ramadan, Y. H., Gu , A., Ross, N., McEwan, S. A., Barr, M. M., Firestein, B. L., O'Hagan , R. (2021). CCP1, A tubulin deglutamylase, increases survival of rodent spinal cord neurons following glutamate-induced excitotoxicity. Eneuro. ENEURO, 8(2), 0431. doi:
10.1523/ENEURO.0431-20.2021. Google Scholar |
Crossref Regnard, C., Fesquet, D., Janke, C., Boucher, D., Desbruyéres, E., Koulakoff, A., Insina, C., Travo, P., Eddé, B. (2003). Characterisation of PGs1, a subunit of a protein complex co-purifying with tubulin polyglutamylase. Journal of Cell Science, 116(20), 4181–4190. doi:
10.1242/jcs.00743. Google Scholar |
Crossref |
Medline Reznik, S. E., Fricker, L. D. (2001). Carboxypeptidases from A to Z: Implications in embryonic development and Wnt binding. Cellular and Molecular Life Sciences, 58(12), 1790–1804. doi:
10.1007/PL00000819. Google Scholar |
Crossref |
Comments (0)