Vanderbilt-Ingram Cancer Center

The VICC.ORG Investigator Directory

Bruce D. Carter, Ph.D.

Associate Professor
VICC Member
Researcher

Contact Information:

Vanderbilt University Medical Center
655 Light Hall
Nashville, TN 37232-0146
615-936-3041

Research Specialty:

Molecular mechanisms of neurotrophin signaling

Research Description:

I. Molecular mechanisms of neurotrophin signaling ?Our lab studies the signaling mechanisms regulating neuronal survival. Programmed cell death in the nervous system is a naturally occurring process in mammalian development; however, abnormal apoptosis is the basis for many neuropathologies, e.g. Alzheimer's and Parkinson's disease and ischemic injury. The delicate balance between neuronal survival and death is regulated, in part, by a family of growth factors referred to as the neurotrophins. The target tissues to which the neurons project produce members of this family of trophic factors. The neurotrophins promote neuronal survival and differentiation through binding to the Trks, a family of tyrosine kinase receptors, and induce apoptosis through a 75kD receptor, p75. While significant progress has been made in elucidating the mechanisms by which the Trks promote survival, much less is known about how p75 induces cell death. We recently discovered that pro-death ligands promote p75 cleavage by ??secretase, which releases a transcription factor, NRIF, to enter the nucleus. This process is required for the receptor's apoptotic signal.This research will reveal the mechanisms underlying normal mammalian neural development and function. Moreover, understanding the regulation of neural cell survival is essential for developing therapeutic strategies for neuropathologies involving apoptosis, which include many diseases and nerve lesions.

II.Molecular mechanisms of myelin formation?The other area of research in the lab is to elucidate the mechanism by which myelin forms. Myelin is a multilamellar structure that ensheaths axons and allows for the rapid conduction of electrical signals, acts as a protective barrier for axons, regulates regeneration and provides trophic support for neurons. This structure is produced by Schwann cells in the peripheral nervous system and oligodendrocytes in the CNS. The formation of peripheral myelin during development is initiated by yet to be identified signals from the axon with which the Schwann cells are associated. The overall objective of this project is to elucidate the mechanisms regulating the formation of this essential neural structure. We found that activation of the transcription factor NF-?B in Schwann cells is essential for their differentiation into a myelinating phenotype and are currently investigating the up stream activator of NF-?B and what the downstream targets are.The formation of myelin is critical for the normal function of the mammalian nervous system. Disruptions in myelination during development lead to a variety of muscular dystrophies, in particular Charcot-Marie-Tooth disease, and degeneration of myelin in adults can lead to disabling pathologies such as Multiple Sclerosis and Guillian Barre Syndrome. In addition, myelin is a key regulator of nerve regeneration, preventing it in the CNS and promoting it in the periphery. Therefore, understanding how this specialized structure forms may reveal mechanisms underlying the etiology of a number pathologies as well as potential points for therapeutic intervention.

Publications:

• Tep, C, Kim, ML, Opincariu, LI, Limpert, AS, Chan, JR, Appel, B, Carter, BD, Yoon, SO Brain-derived neurotrophic factor (BDNF) induces polarized signaling of small GTPase (Rac1) protein at the onset of Schwann cell myelination through partitioning-defective 3 (Par3) protein. J Biol Chem, 287(2), 1600-8, 2012.
• Benesh, AE, Fleming, JT, Chiang, C, Carter, BD, Tyska, MJ Expression and localization of myosin-1d in the developing nervous system. Brain Res, 14409-22, 2012.
• Scheib, JL, Sullivan, CS, Carter, BD Jedi-1 and MEGF10 Signal Engulfment of Apoptotic Neurons through the Tyrosine Kinase Syk. J Neurosci, 32(38), 13022-31, 2012.
• Duggan, KC, Hermanson, DJ, Musee, J, Prusakiewicz, JJ, Scheib, JL, Carter, BD, Banerjee, S, Oates, JA, Marnett, LJ (R)-Profens are substrate-selective inhibitors of endocannabinoid oxygenation by COX-2. Nat Chem Biol, 7(11), 803-9, 2011.
• Perdigoto, AL, Chaudhry, N, Barnes, GN, Filbin, MT, Carter, BD A novel role for PTEN in the inhibition of neurite outgrowth by myelin-associated glycoprotein in cortical neurons. Mol Cell Neurosci, 46(1), 235-44, 2011.
• Astuti, D, Ricketts, CJ, Chowdhury, R, McDonough, MA, Gentle, D, Kirby, G, Schlisio, S, Kenchappa, RS, Carter, BD, Kaelin, WG, Ratcliffe, PJ, Schofield, CJ, Latif, F, Maher, ER Mutation analysis of HIF prolyl hydroxylases (PHD/EGLN) in individuals with features of phaeochromocytoma and renal cell carcinoma susceptibility. Endocr Relat Cancer, 18(1), 73-83, 2011.
• Limpert, AS, Carter, BD Axonal neuregulin 1 type III activates NF-kappaB in Schwann cells during myelin formation. J Biol Chem, 285(22), 16614-22, 2010.
• Carter, BD Degeneration keeps axons on the straight and narrow. Nat Neurosci, 13(5), 526-8, 2010.
• Scheib, JL, Carter, BD Eaters of the dead: Glial precursors clear neuron corpses during development. Cell Cycle, 9(10), 2010.
• Carter, BD, Feng, N, Paolocci, N The p75 neurotrophin receptor, semaphorins, and sympathetic traffic in the heart. Am J Physiol Heart Circ Physiol, 298(6), H1633-6, 2010.
• Kenchappa, RS, Tep, C, Korade, Z, Urra, S, Bronfman, FC, Yoon, SO, Carter, BD p75 neurotrophin receptor-mediated apoptosis in sympathetic neurons involves a biphasic activation of JNK and up-regulation of tumor necrosis factor-alpha-converting enzyme/ADAM17. J Biol Chem, 285(26), 20358-68, 2010.
• Vilar, M, Charalampopoulos, I, Kenchappa, RS, Simi, A, Karaca, E, Reversi, A, Choi, S, Bothwell, M, Mingarro, I, Friedman, WJ, Schiavo, G, Bastiaens, PI, Verveer, PJ, Carter, BD, Ibáñez, CF Activation of the p75 neurotrophin receptor through conformational rearrangement of disulphide-linked receptor dimers. Neuron, 62(1), 72-83, 2009.
• Wu, HH, Bellmunt, E, Scheib, JL, Venegas, V, Burkert, C, Reichardt, LF, Zhou, Z, Fariñas, I, Carter, BD Glial precursors clear sensory neuron corpses during development via Jedi-1, an engulfment receptor. Nat Neurosci, 12(12), 1534-41, 2009.
• Antar, AA, Konopka, JL, Campbell, JA, Henry, RA, Perdigoto, AL, Carter, BD, Pozzi, A, Abel, TW, Dermody, TS Junctional adhesion molecule-A is required for hematogenous dissemination of reovirus. Cell Host Microbe, 5(1), 59-71, 2009.
• Vilar, M, Charalampopoulos, I, Kenchappa, RS, Reversi, A, Klos-Applequist, JM, Karaca, E, Simi, A, Spuch, C, Choi, S, Friedman, WJ, Ericson, J, Schiavo, G, Carter, BD, Ibáñez, CF Ligand-independent signaling by disulfide-crosslinked dimers of the p75 neurotrophin receptor. J Cell Sci, 122(Pt 18), 3351-7, 2009.
• Volosin, M, Trotter, C, Cragnolini, A, Kenchappa, RS, Light, M, Hempstead, BL, Carter, BD, Friedman, WJ Induction of proneurotrophins and activation of p75NTR-mediated apoptosis via neurotrophin receptor-interacting factor in hippocampal neurons after seizures. J Neurosci, 28(39), 9870-9, 2008.
• Bertrand, MJ, Kenchappa, RS, Andrieu, D, Leclercq-Smekens, M, Nguyen, HN, Carter, BD, Muscatelli, F, Barker, PA, De Backer, O NRAGE, a p75NTR adaptor protein, is required for developmental apoptosis in vivo. Cell Death Differ, 2008.
• Korade, Z, Kenchappa, RS, Mirnics, K, Carter, BD NRIF is a Regulator of Neuronal Cholesterol Biosynthesis Genes. J Mol Neurosci, 2008.
• Hundahl, CA, Allen, GC, Nyengaard, JR, Dewilde, S, Carter, BD, Kelsen, J, Hay-Schmidt, A Neuroglobin in the Rat Brain: Localization. Neuroendocrinology, 2008.
• Yoon, C, Korade, Z, Carter, BD Protein Kinase A-Induced Phosphorylation of the p65 Subunit of Nuclear Factor-{kappa}B Promotes Schwann Cell Differentiation into a Myelinating Phenotype. J Neurosci, 28(14), 3738-46, 2008.
• Schlisio, S, Kenchappa, RS, Vredeveld, LC, George, RE, Stewart, R, Greulich, H, Shahriari, K, Nguyen, NV, Pigny, P, Dahia, PL, Pomeroy, SL, Maris, JM, Look, AT, Meyerson, M, Peeper, DS, Carter, BD, Kaelin, WG The kinesin KIF1B{beta} acts downstream from EglN3 to induce apoptosis and is a potential 1p36 tumor suppressor. Genes Dev, 22(7), 884-93, 2008.
• Carter, BD A Bex-cycle built for two. EMBO Rep, 7(4), 382-4, 2006.
• Qu, S, Rinehart, C, Wu, HH, Wang, SE, Carter, B, Xin, H, Kotlikoff, M, Arteaga, CL Gene targeting of ErbB3 using a Cre-mediated unidirectional DNA inversion strategy. Genesis, 44(10), 477-86, 2006.
• Kenchappa, RS, Zampieri, N, Chao, MV, Barker, PA, Teng, HK, Hempstead, BL, Carter, BD Ligand-dependent cleavage of the P75 neurotrophin receptor is necessary for NRIF nuclear translocation and apoptosis in sympathetic neurons. Neuron, 50(2), 219-32, 2006.
• Linggi, Michelle S, Burke, Tara L, Williams, B Blairanne, Harrington, Anthony, Kraemer, Rosemary, Hempstead, Barbara L, Yoon, Sung Ok, Carter, Bruce D NRIF is an essential mediator of apoptotic signaling by the p75 neurotrophin receptor. J Biol Chem, 2005.
• Lee, S, Nakamura, E, Yang, H, Wei, W, Linggi, MS, Sajan, MP, Farese, RV, Freeman, RS, Carter, BD, Kaelin, WG, Schlisio, S Neuronal apoptosis linked to EglN3 prolyl hydroxylase and familial pheochromocytoma genes: Developmental culling and cancer. Cancer Cell, 8(2), 155-167, 2005.
• Geetha, T, Kenchappa, RS, Wooten, MW, Carter, BD TRAF6-mediated ubiquitination regulates nuclear translocation of NRIF, the p75 receptor interactor. EMBO J, 24(22), 3859-68, 2005.
• Gentry, Jennifer J., Rutkoski, Nancy J., Burke, Tara L., Carter, Bruce D. A functional interaction between the p75 neurotrophin receptor interacting factors, TRAF6 and NRIF. J Biol Chem, 2004.
• Yeiser, E Carden, Rutkoski, Nancy J, Naito, Asuka, Inoue, Jun-ichiro, Carter, Bruce D Neurotrophin signaling through the p75 receptor is deficient in traf6-/- mice. J Neurosci, 24(46), 10521-9, 2004.
• Gentry, Jannifer J, Barker, Philip A, Carter, Bruce D The p75 neurotrophin receptor: multiple interactors and numerous functions. Prog Brain Res, 14625-39, 2004.
• Nickols, Joshua C, Valentine, William, Kanwal, Sujata, Carter, Bruce D Activation of the transcription factor NF-kappaB in Schwann cells is required for peripheral myelin formation. Nat Neurosci, 6(2), 161-7, 2003.
• Fainzilber, Mike, Carter, Bruce D From neurotrophins to immunotrophins. NGF 2002: The 7th international conference on NGF and related molecules. EMBO Rep, 3(11), 1029-34, 2002.
• Palmada, M, Kanwal, S, Rutkoski, N J, Gustafson-Brown, C, Johnson, R S, Wisdom, R, Carter, B D c-jun is essential for sympathetic neuronal death induced by NGF withdrawal but not by p75 activation. J Cell Biol, 158(3), 453-61, 2002.
• Gentry, J J, Casaccia-Bonnefil, P, Carter, B D Nerve growth factor activation of nuclear factor kappaB through its p75 receptor is an anti-apoptotic signal in RN22 schwannoma cells. J Biol Chem, 275(11), 7558-65, 2000.
• Dobrowsky, R T, Carter, B D p75 neurotrophin receptor signaling: mechanisms for neurotrophic modulation of cell stress. J Neurosci Res, 61(3), 237-43, 2000.
• Casademunt, E, Carter, B D, Benzel, I, Frade, J M, Dechant, G, Barde, Y A The zinc finger protein NRIF interacts with the neurotrophin receptor p75(NTR) and participates in programmed cell death. EMBO J, 18(21), 6050-61, 1999.
• Yoon SO, Casaccia-Bonnefil P, Carter BD and Chao MV "Competitive signaling between TrkA and p75 NGF receptors determines cell survival." J Neurosci, 183273-3281, 1998.
• Dobrowsky, R T, Carter, B D Coupling of the p75 neurotrophin receptor to sphingolipid signaling. Ann N Y Acad Sci, 84532-45, 1998.
• Chao, M., Casaccia-Bonnefil, P., Carter, B., Chittka, A., Kong, H. and Yoon, S.O "Neurotrophin receptors: mediators of life and death." Brain Res. Brain Res. Rev., 26295-301, 1998.
• Carter, B D, Lewin, G R Neurotrophins live or let die: does p75NTR decide. Neuron, 18(2), 187-90, 1997.
• Strohmaier, C, Carter, B D, Urfer, R, Barde, Y A, Dechant, G A splice variant of the neurotrophin receptor trkB with increased specificity for brain-derived neurotrophic factor. EMBO J, 15(13), 3332-7, 1996.
• Casaccia-Bonnefil, P, Carter, B D, Dobrowsky, R T, Chao, M V Death of oligodendrocytes mediated by the interaction of nerve growth factor with its receptor p75. Nature, 383(6602), 716-9, 1996.
• Carter, B D, Dechant, G, Frade, J M, Kaltschmidt, C, Barde, Y A Neurotrophins and their p75 receptor. Cold Spring Harb Symp Quant Biol, 61407-15, 1996.
• Carter, B D, Kaltschmidt, C, Kaltschmidt, B, Offenhäuser, N, Böhm-Matthaei, R, Baeuerle, P A, Barde, Y A Selective activation of NF-kappa B by nerve growth factor through the neurotrophin receptor p75. Science, 272(5261), 542-5, 1996.
• Carter, B D, Zirrgiebel, U, Barde, Y A Differential regulation of p21ras activation in neurons by nerve growth factor and brain-derived neurotrophic factor. J Biol Chem, 270(37), 21751-7, 1995.
• Biffo, S, Offenhäuser, N, Carter, B D, Barde, Y A Selective binding and internalisation by truncated receptors restrict the availability of BDNF during development. Development, 121(8), 2461-70, 1995.
• Carter, B D, Medzihradsky, F Go mediates the coupling of the mu opioid receptor to adenylyl cyclase in cloned neural cells and brain. Proc Natl Acad Sci U S A, 90(9), 4062-6, 1993.
• Carter, B D, Medzihradsky, F Receptor mechanisms of opioid tolerance in SH-SY5Y human neural cells. Mol Pharmacol, 43(3), 465-73, 1993.
• Carter, B D, Medzihradsky, F Opioid signal transduction in intact and fragmented SH-SY5Y neural cells. J Neurochem, 58(5), 1611-9, 1992.
• Medzihradsky, F. and B.D. Carter "Opioid receptor mechanisms." Chapt. 10 of Biochemistry and Physiology of Substance Abuse (Watson, R.R. ed.) CRC Press Inc., Boca Raton, Fl., 1991.
• Clark, M J, Carter, B D, Medzihradsky, F Selectivity of ligand binding to opioid receptors in brain membranes from the rat, monkey and guinea pig. Eur J Pharmacol, 148(3), 343-51, 1988.