Biomedical Research Education & Training
Faculty Member

Barnett, Joey Victor, Ph.D.
Acting Chair, Department of Pharmacology
Professor of Pharmacology
Professor of Pathology, Microbiology and Immunology
Professor of Medicine
Professor of Pediatrics

Lab Url: https://www.mc.vanderbilt.edu/root/vumc.php?site=pharmacology&doc=30357

Phone Number: 615-936-1722

Email Address: joey.barnett@vanderbilt.edu

Barnett, Joey's picture
Academic history
B.S. , Univ. of Southern Indiana, Evansville
Ph.D. , Vanderbilt University
Fellowship, Brigham & Women's Hospital & Harvard Med. School

Office Address   Mailing Address

460B Preston Research Building

460 PRB 6600


Research Keywords
Cardiac function, Developmental biology, Heart, Kinase, Knockout, Molecular medicine, Pharmacology, Phosphorylation, Physiology, Protein structure, Receptor, Signal transduction, Vascular Biology, Developmental biology, Pharmacology, Receptor, Signal transduction, Vascular Biology,Developmental biology,Heart,Knockout,Pharmacology,Receptor,Signal transduction

Research Description
The goal of our laboratory is to determine the common mechanisms by which growth factors mediate and influence organ formation during embryogenesis. We have a special interest in heart formation in the chick and currently focus on the Transforming Growth Factor-beta (TGF beta) family of peptide growth factors in atrioventricular (AV) cushion transformation and coronary vessel formation in the heart. Localized epithelial-mesenchymal transformation in specific regions of the heart, including the AV cushion and proepicardium, gives rise to the valves and membranous septa of the heart and coronary vessels, respectively. Using specific antibodies to immunolocalize TGF beta receptor types and to block specific receptor types in an in vitro model of AV cushion transformation, we have identified the TGF beta receptor complex that mediates transformation. Further, misexpression of components of this complex by viral gene transfer converts normally unresponsive ventricular endocardial cells to transforming cells confirming the roles of specific receptors and downstream signaling molecules. Experiments in the proepicardium indicate the TGF beta receptors play a similar role in coronary vessel formation. Future experiments are designed to identify downstream components of receptor signaling and examine the role of this signaling complex in other sites in the embryo. In addition, a number of strategies are being used to identify genes expressed by the AV cushion, developing valves, and proepicardium. Finally, conditionally null mice are being generated to confirm and extend these results in mammals. These concerted strategies are directed at determining the role that growth factors, like TGF beta, play in organ formation during embryogenesis.


Publications
Kain, KH, Miller, JW, Jones-Paris, CR, Thomason, RT, Lewis, JD, Bader, DM, Barnett, JV, Zijlstra, A. The chick embryo as an expanding experimental model for cancer and cardiovascular research. Dev Dyn, 243(2), 216-28, 2014

Sewell-Loftin, MK, Delaughter, DM, Peacock, JR, Brown, CB, Baldwin, HS, Barnett, JV, Merryman, WD. Myocardial contraction and hyaluronic acid mechanotransduction in??epithelial-to-mesenchymal transformation of endocardial cells. Biomaterials, 2014

DeLaughter, DM, Christodoulou, DC, Robinson, JY, Seidman, CE, Baldwin, HS, Seidman, JG, Barnett, JV. Spatial transcriptional profile of the chick and mouse endocardial cushions identify novel regulators of endocardial EMT in vitro. J Mol Cell Cardiol, 59, 196-204, 2013

Doetschman, T, Barnett, JV, Runyan, RB, Camenisch, TD, Heimark, RL, Granzier, HL, Conway, SJ, Azhar, M. Transforming growth factor beta signaling in adult cardiovascular diseases and repair. Cell Tissue Res, 347(1), 203-23, 2012

Hill, CR, Sanchez, NS, Love, JD, Arrieta, JA, Hong, CC, Brown, CB, Austin, AF, Barnett, JV. BMP2 signals loss of epithelial character in epicardial cells but requires the Type III TGFI? receptor to promote invasion. Cell Signal, 24(5), 1012-22, 2012

S?!nchez, NS, Barnett, JV. TGFI? and BMP-2 regulate epicardial cell invasion via TGFI?R3 activation of the Par6/Smurf1/RhoA pathway. Cell Signal, 24(2), 539-48, 2012

Townsend, TA, Robinson, JY, How, T, Delaughter, DM, Blobe, GC, Barnett, JV. Endocardial cell epithelial-mesenchymal transformation requires Type III TGFI? receptor interaction with GIPC. Cellular Signaling, 24, 247-256, 2012

Zhang, HF, Lin, XH, Yang, H, Zhou, LC, Guo, YL, Barnett, JV, Guo, ZM. Regulation of the Activity and Expression of Aryl Hydrocarbon Receptor by Ethanol in Mouse Hepatic Stellate Cells. Alcohol Clin Exp Res, 2012

Barnett, JV. . Ph.D. education for biomedical scientists in the United States. Proceedings, of the 6th ORPHEUS Conference. Turkish Journal of Biochemistry (36), 9-12, 2011

Delaughter, DM, Saint-Jean, L, Baldwin, HS, Barnett, JV. What chick and mouse models have taught us about the role of the endocardium in congenital heart disease. Birth Defects Res A Clin Mol Teratol, 2011

Lencinas, A, Tavares, AL, Barnett, JV, Runyan, RB. Collagen gel analysis of epithelial-mesenchymal transition in the embryo heart: an in vitro model system for the analysis of tissue interaction, signal transduction, and environmental effects. Birth Defects Res C Embryo Today, 93(4), 298-311, 2011

S?!nchez, NS, Hill, CR, Love, JD, Soslow, JH, Craig, E, Austin, AF, Brown, CB, Czirok, A, Camenisch, TD, Barnett, JV. The cytoplasmic domain of TGFI?R3 through its interaction with the scaffolding protein, GIPC, directs epicardial cell behavior. Dev Biol, 2011

Townsend, TA, Robinson, JY, Deig, CR, Hill, CR, Misfeldt, A, Blobe, GC, Barnett, JV. BMP-2 and TGFI?2 Shared Pathways Regulate Endocardial Cell Transformation. Cells Tissues Organs, 2011

Angel, PM, Nusinow, D, Brown, CB, Violette, K, Barnett, JV, Zang, B, Baldwin, HS, Caprioli, RM. Networked-based Characterization of Extracellular Matrix Proteins from Adult Mouse Pulmonary and Aortic Valves. J Proteome Res, 2010

Craig, EA, Austin, AF, Vaillancourt, RR, Barnett, JV, Camenisch, TD. TGFI?2-mediated production of hyaluronan is important for the induction of epicardial cell differentiation and invasion. Exp Cell Res, 316(20), 3397-405, 2010

Craig, EA, Parker, P, Austin, AF, Barnett, JV, Camenisch, TD. Involvement of the MEKK1 signaling pathway in the regulation of epicardial cell behavior by hyaluronan. Cell Signal, 2010

Frieden, LA, Townsend, TA, Vaught, DB, Delaughter, DM, Hwang, Y, Barnett, JV, Chen, J. Regulation of heart valve morphogenesis by Eph receptor ligand, ephrin-A1. Dev Dyn, 239(12), 3226-34, 2010

Karunamuni, G, Yang, K, Doughman, YQ, Wikenheiser, J, Bader, D, Barnett, J, Austin, A, Parsons-Wingerter, P, Watanabe, M. Expression of lymphatic markers during avian and mouse cardiogenesis. Anat Rec (Hoboken), 293(2), 259-70, 2010

Austin, AF, Compton, LA, Love, JD, Brown, CB, Barnett, JV. Primary and immortalized mouse epicardial cells undergo differentiation in response to TGFbeta. Dev Dyn, 237(2), 366-376, 2008

Criswell, TL, Dumont, N, Barnett, JV, Arteaga, CL. Knockdown of the transforming growth factor-beta type III receptor impairs motility and invasion of metastatic cancer cells. Cancer Res, 68(18), 7304-12, 2008

Kirkbride, KC, Townsend, TA, Bruinsma, MW, Barnett, JV, Blobe, GC. Bone morphogenetic proteins signal through the transforming growth factor-beta type III receptor. J Biol Chem, 283(12), 7628-7637, 2008

Townsend, TA, Wrana, JL, Davis, GE, Barnett, JV. Transforming growth factor-beta-stimulated endocardial cell transformation is dependent on Par6c regulation of RhoA. J Biol Chem, 283(20), 13834-41, 2008 PMCID:2376225

Compton, LA, Potash, DA, Brown, CB, Barnett, JV. Coronary vessel development is dependent on the type III transforming growth factor beta receptor. Circ Res, 101(8), 784-91, 2007

Barnett, J. Directors of Pharmacology Graduate Programs: Pharm Phorum. Mol Interv, 6(1), 4-7, 2006

Compton, LA, Potash, DA, Mundell, NA, Barnett, JV. Transforming growth factor-beta induces loss of epithelial character and smooth muscle cell differentiation in epicardial cells. Dev Dyn, 235(1), 82-93, 2006

Olivey, HE, Mundell, NA, Austin, AF, Barnett, JV. Transforming growth factor-beta stimulates epithelial-mesenchymal transformation in the proepicardium. Dev Dyn, 235(1), 50-9, 2006

Desgrosellier, JS, Mundell, NA, McDonnell, MA, Moses, HL, Barnett, JV. Activin receptor-like kinase 2 and Smad6 regulate epithelial-mesenchymal transformation during cardiac valve formation. Dev Biol, 280(1), 201-10, 2005

Olivey, Harold E, Compton, Leigh A, Barnett, Joey V. Coronary vessel development: the epicardium delivers. Trends Cardiovasc Med, 14(6), 247-51, 2004

Marlow, Michael S, Brown, Christopher B, Barnett, Joey V, Krezel, Andrzej M, . Solution structure of the chick TGFbeta type II receptor ligand-binding domain.. J Mol Biol, 326, 989-97, 2003

Lai, Y T, Beason, K B, Brames, G P, Desgrosellier, J S, Cleggett, M C, Shaw, M V, Brown, C B, Barnett, J V. Activin receptor-like kinase 2 can mediate atrioventricular cushion transformation. Dev Biol, 222(1), 1-11, 2000

Brown, C B, Boyer, A S, Runyan, R B, Barnett, J V. Requirement of type III TGF-beta receptor for endocardial cell transformation in the heart. Science, 283(5410), 2080-2, 1999


Postdoctoral Position Available
No

Postdoctoral Position Details
N/A

Updated Date
07/31/2013