Sanjay Kansra, PhD
Assistant Professor of Medicine
Department of Medicine
Division of Endocrinology, Metabolism, and Clinical Nutrition
Endocrine Pharmacology
Contact Information:
Telephone: 414-456-7376
Email: E-mail: skansra@mcw.edu
Research Interests:
Hyperprolactinemia, over production of prolactin (PRL), is a major cause of infertility in women and impotence in men, and thus understanding regulation of PRL production and release is of vital interest. The pituitary lactotrophs express a and b types of estrogen receptors (ER) and respond to estrogens by increased PRL release and proliferation. Although the role of estrogens in regulating lactotroph function is well established, the ER subtype contribution in these processes is unknown. Using rat pituitary lactotrophs,GH3 cells, we found that 17 estradiol, (E2), PPT (ER specific agonist),DPN (ERb specific agonist) and xenoestrogen, bisphenol A (BPA)induced PRL release, whereas only E2 and PPT stimulated cell proliferation. Further, all ligands activated Erk-1,2, suggestive of a common initial signaling mechanism. We are now characterizing the ER subtypes and their signaling mechanisms that mediate E2 and xenoestrogen responses in lactotrophs.
We have also found that in absence of E2, the "pure" anti-estrogen ICI 182,780 (ICI) rapidly degrades ER the proteosome and suppresses both PRL production/release and cell proliferation. Notably, E2, which stimulates cell proliferation and PRL release/gene expression, also causes rapid proteosomal degradation of ERa. This suggests that ER occupied by E2 or ICI, is proteolytically processed in distinct manners. We are identifying early events that occur upon ER occupation by agonists and antagonists, which might explain the different biological responses to these compounds.
It is now well accepted that there exists a bidirectional between ER and growth factor receptors. These interactions have been extensively characterized in the breast and uterus, but this status is unknown in lactotrophs. We show that epidermal growth factor (EGF) is a weak mitogen in lactotrophs, but in the presence of sub-nanomolar amounts of E2, a potent Erk-1,2-dependent synergism in stimulation of lactotroph proliferation is observed. We are currently investigating the status of ER:EGFR interactions in the lactotrophs, both in the presence and absence of E2.
Recent Publications:
Miller M, Chen S, Woodliff J, Kansra S. Curcumin (diferuloylmethane) inhibits cell proliferation, induces apoptosis and decreases hormone levels and secretion, in pituitary tumor cells. Endocrinology. 2008 May 1. [Epub ahead of print]
Rittié L, Kansra S, Stoll SW, Li Y, Gudjonsson JE, Shao Y, Michael LE, Fisher GJ, Johnson TM, Elder JT. Differential ErbB1 signaling in squamous cell versus basal cell carcinoma of the skin. Am J Pathol. 2007 Jun;170(6):2089-99.
Kansra, S., Yamagata, S., Sneade, L, Foster, L, and Ben-Jonathan, N. Differential effects of estrogen receptor antagonists on pituitary lactotroph proliferation and prolactin release. Mol. Cell. Endocrinology, 239(1-2): 27-36, 2005.
Kansra, S, Stoll, S.W., Johnson, J. and Elder, J.T. Src Family kinase inhibitors block amphiregulin mediated autocrine ErbB signaling in normal human keratinocytes Mol. Pharm. 67(4): 1145-57, 2005.
Kansra, S, Stoll, S.W., Johnson, J. and Elder, J.T. Autocrine ERK activation in normal human keratinocytes: metalloproteinase-mediated release of amphiregulin triggers signaling from ErbB1 to ERK. Mol. Biol. Cell. 15(9): 4299-309. 2004.
Kansra, S, Stoll, S.W, and Elder, J,T. Preferential cytoskeletal association of ErbB1R compared to ErbB2R in normal human keratinocytes. BBRC, 295(5): 1108-17, 2002.
Stoll, S, Kansra, S, and Elder, J.T. Metalloproteinases stimulate ErbB dependent ERK signaling in human skin organ culture. J. Biol. Chem, 297(30): 26839-45, 2002.