Identification, isolation and characterization of proinsulin producing thymic cells

Palumbo, Michael O.

January 2007

The finding that more than 152 tissue-restricted antigens are expressed by thymic medullary epithelial cells is redefining the importance of thymic central tolerance induction in the prevention of autoimmune diseases. One of the tissue-restricted antigens in the thymus is proinsulin, and in both mice and humans, reduced thymic proinsulin levels have been shown to predispose to Type 1 diabetes. Using transgenic mice expressing a functional beta-Galactosidase gene under the regulation of the Ins2 promoter we have determined that between 1-3% of all medullary thymic epithelial cells express proinsulin and that these cells are frequently part of the Hassall's Corpuscles like structures in mice. Using a cross between the beta-Galactosidase expressing mice and Immortomice (expressing SV40 large T Antigen under the regulation of the MHC I promoter), we have isolated and cultured two proinsulin and two non-proinsulin producing medullary epithelial cell lines. Microarray analysis and RT-PCR analysis of the cell lines revealed the over-expression of approximately 50 genes (>4 fold or more) in the proinsulin producing lineage, versus the non proinsulin producing lineage, and approximately half the over-expressed genes can be considered tissue-restricted antigens. We do not find any evidence for chromosomal clustering of the over-expressed genes nor do we report the expression of any other pancreatic n-cell antigens or specific pancreatic proinsulin regulatory proteins (Pdx-1, Glut-2 or GCK) within the proinsulin producing cell lines but we do detect their expression in whole thymus. Our results suggest that chromosomal clustering is not a phenomenon associated with thymic tissue-restricted antigen expression and that the mechanisms allowing for thymic tissue-restricted antigen expression are not related to the expression mechanisms of such antigens in peripheral tissues.

Proinsulin -- biosynthesis.

Thymus Gland -- cytology.

Epithelial Cells -- cytology.

Identification, isolation and characterization of proinsulin producing thymic cells

Palumbo, Michael O.

January 2007

No description available.

Epithelial Cells -- cytology.

Proinsulin -- biosynthesis.

Thymus Gland -- cytology.

The role of the Gab family of docking proteins in Met mediated membrane ruffle formation /

Frigault, Melanie M. (Melanie Mae), 1979-

January 2008

In response to extra-cellular cues, cells activate signal transduction pathways to elicit a biological response. Cell surface growth factor receptors such as the Met receptor tyrosine kinase (RTK) activate signals that result in cellular proliferation, survival, migration, as well as epithelial morphogenesis. In order for signal transduction to occur, docking proteins are recruited to the activated RTK, become phosphorylated on tyrosine residues, which then serve as docking sites for the recruitment of other signaling proteins. Docking proteins function to diversify the signal by assembling multi-protein complexes. The Gab1 docking protein is the most tyrosine phosphorylated protein upon Met receptor activation and is required for Met mediated signaling and biology. / Gab1 belongs to a family of docking proteins including the highly related Gab2 protein. Gab1 promotes signals for epithelial morphogenesis downstream of the Met receptor, however Gab2 is unable to do so. Insertion of the Gab1 Met binding Motif (MBM) which confers direct binding to the Met receptor, as well as membrane targeting of Gab2 is sufficient to switch the capacity of Gab2 to activate the morphogenic program, cell scatter and lamellipodia formation. This is achieved via activation of sustained signaling pathways, and redistribution of the Gab protein, and associated molecules to sites of lamellipodia formation at the peripheral edge of the cell. / Activation of the Met RTK, promotes the formation of dorsal ruffles on the apical surface of epithelial cells. The Met receptor, Gab1 and Gab1 associated molecules Shp2, Crk, and p8S subunit of PI3K, are localized to these structures, however only the Gab1erk complex is required to drive dorsal ruffle formation. Gab1 is required for Met induced dorsal ruffles as well as downstream the PDGF and EGF RTKs. These are a signaling micro-environment which results in enhanced receptor degradation. Inhibition or enhancement of Met mediated dorsal ruffle formation correlates with receptor stability. / Dorsal ruffle formation downstream of Met requires the enzymatic activity of PI3K and PLCgamma, both enzymes that metabolize PIP2, and form complexes with Gab1 downstream of Met. PLCgamma and the PIP3 lipid product of PI3K are co-localized with Gab1 in dorsal ruffles. Gab1 engages with elements of the cytoskeleton, actin and cortactin, providing a link between growth factor signaling and remodeling of the actin cytoskeleton. Gab1 is localized to membrane protrusions of the basal surface in organoid cultures and is required for actin protrusions of the basal surface of breast cancer cells.

Epithelial Cells -- cytology.

Cell Membrane -- metabolism.

Cell Shape.

The role of the Gab family of docking proteins in Met mediated membrane ruffle formation /

Frigault, Melanie M. (Melanie Mae), 1979-

January 2008

No description available.

Epithelial Cells -- cytology.

Cell Membrane -- metabolism.

Cell Shape.