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Department of Chemistry and Biochemistry

Faculty and Staff Directory

Mythreye Karthikeyan

Title: Assistant Professor / Biochemistry and Molecular Biology
Department: Chemistry and Biochemistry
Department of Chemistry and Biochemistry
Phone: 803-576-5806
Fax: 803-777-9521
Office: Office: GSRC 309 
Lab: GSRC 324, 803-777-6323
Lab 2: GSRC 325
Lab 3: GSRC 335A

Resources: CV [pdf]
All Publications
Mythreye Karthikeyan Group Website 
Department of Chemistry and Biochemistry

Dr. Mythreye Karthikeyan


B.Sc., 1996, University of Delhi
M.Sc., 1998, Hamdard University
Ph.D., 2005, University of North Carolina

Honors and Awards

Liz Tilberis Scholar Award, Ovarian Cancer Research Fund, 2013-2016;  Career Development Award, Ovarian Cancer Research (Department of Defense), 2009-2012.

Research Interests

Key Words: Growth factor-receptor signaling mechanisms and signal
transduction pathways, Epithelial and Tumor cell biology including Cell
survival mechanisms, Cell migration and invasion biology, Cell adhesion and

The overall goal of the lab is to: 1) Discover the molecular and cellular basis of
cancer growth and metastasis. Emphasis is laid on the TGF-β family of growth
factors, receptors, co-receptors and their crosstalk with pathways including
the Wnt/ β-catenin pathway and the integrin family of cell adhesion receptors
in cancer.
2) To translate these discoveries into a source of novel therapeutic targets and
Overview: The transforming growth factor-β (TGF-β) family of growth factors,
including the TGF-β ligands, the Bone morphogenetic proteins (BMPs),
Activins and Inhibin have physiological roles in regulation of growth, cell
differentiation and apoptosis in a cell and context-specific manner. TGFβ
family ligands induce phenotypic changes in cancer cells including altered
morphology, adhesion, motility and invasive behavior via a signal
transduction cascade illustrated in Figure 1 and play dichotomous roles in
cancer, switching from tumor suppressors to tumor promoters. Defining
context specific outcomes of TGF-β signaling will improve ability to target
these pathways in various pathologies.
Core research areas:
    •  Transcriptional Regulation of Cell Survival and Metastasis in Cancer
    •  Impact of Post Translational modifications of cell surface receptors in
    •  Paracrine regulation of tumor angiogenesis
    •  Investigating intersections between biochemical signals and mechanical
       signals received by cells as the extracellular matrix environment
       changes in disease.

Mechanistic studies are conducted in cell line models of cancer either in two
dimension (Figure 2), or in specialized three dimensional organotype culture
models (Figure 3).
Defined mechanisms are translated into preclinical work using small molecule
inhibitors, antibodies and chemotherapeutic agents in xenograft models and
transgenic mice to determine invivo impact.

Selected Publications

Inhibin is a novel paracrine factor for tumor angiogenesis and metastasis. Singh P, Jenkins LM, Horst B, Alers V, Pradhan S, Kaur P, Srivastava T, Hempel N, Győrffy B, Broude EV, Lee NY, Mythreye K.  Cancer Res. 2018 Mar 13. pii: canres.2316.2017. DOI: 10.1158/0008-5472.CAN-17-2316.

TAK1 activation of alpha-TAT1 and microtubule hyperacetylation control AKT signaling and cell growth. Shah N1, Kumar S, Zaman N, Pan CC, Bloodworth JC, Lei W, Streicher JM, Hempel N, Mythreye K, Lee NY. Nat Commun. 2018 Apr 27;9(1):1696. DOI: 10.1038/s41467-018-04121-y.

TGF-β triggers rapid fibrillogenesis via a novel TβRII-dependent fibronectin-trafficking mechanism.  Varadaraj A, Jenkins LM, Singh P, Chanda A, Snider J, Lee NY, Amsalem-Zafran AR, Ehrlich M, Henis YI, Mythreye K. Mol Biol Cell. 2017 May 1;28(9):1195-1207. Epub 2017 Mar 15. DOI: 10.1091/mbc.E16-08-0601.

Altering the Proteoglycan State of Transforming Growth Factor β Type III Receptor (TβRIII)/Betaglycan Modulates Canonical Wnt/β-Catenin Signaling.Jenkins LM, Singh P, Varadaraj A, Lee NY, Shah S, Flores HV, O'Connell K, MythreyeK. J Biol Chem. 2016 Dec 2;291(49):25716-25728. Epub 2016 Oct 26.  
DOI: 10.1074/jbc.M116.748624.

Kumar S, Pan CC, Shah N, Wheeler SE, Hoyt KR, Hempel N, Mythreye K, Lee NY. Activation of Mitofusin2 by Smad2-RIN1 Complex during Mitochondrial Fusion. Mol Cell. 2016 May 19;62(4):520-31. Epub 2016 May 12.  
DOI: 10.1016/j.molcel.2016.04.010.

Challenge the conventional. Create the exceptional. No Limits.