Progression to ESRD of diabetic glomerulosclerosis and other sclerosing glomerular diseases (e.g. FSGS) is associated with a leak of protein through the glomerular filter (the Nephrotic Syndrome). A major cell responsible for maintaining the integrity of the glomerular filter is the podocyte, whose interdigitating foot processes about the glomerular basement membrane, and between which the glomerular filtrate is formed. With prior support from the Renal Center we have identified, cloned and sequenced two major proteins of importance for the function of the glomerular filter. These are a novel podocyte foot process receptor tyrosine phosphatase (called GLEPP1) and podocalyxin (the major negatively charged molecule of the foot process originally identified by Farquhar and colleagues which is responsible for keeping foot processes apart by charge repulsion). Recent analysis of the GLEPP1 receptor shows that antibodies to the GLEPP1 receptor-like PTPase cause the glomerulus to become more permeable to albumin (leaky), probably in part by inhibiting the PTPase function of the enzyme. Thus a direct and previous unknown mechanism of control of the glomerular filter has been identified. At the same time new information shows that in other cells PTPases regulate intercellular junctions that are analogous to the slit diaphragms (specialized intercellular junctions) that serve as filtration devices between the foot processes of the podocyte. In this application we propose (a) to identify the GLEPP1 ligand using a recombinant GLEPP1 extracellular domain construct and a mammalian cDNA expression cloning strategy, and (b) to test the hypothesis that interference with the GLEPP1-ligand interaction modulates glomerular filter permeability using an isolated glomerular permeability assay. The long term goal will be to develop pharmacologic agents which can modulate glomerular permeability through this mechanism.

Project Start
1999-08-01
Project End
2000-07-31
Budget Start
1997-10-01
Budget End
1998-09-30
Support Year
12
Fiscal Year
1999
Total Cost
Indirect Cost
Name
University of Michigan Ann Arbor
Department
Type
DUNS #
791277940
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109
Hato, Takashi; Winfree, Seth; Day, Richard et al. (2017) Two-Photon Intravital Fluorescence Lifetime Imaging of the Kidney Reveals Cell-Type Specific Metabolic Signatures. J Am Soc Nephrol 28:2420-2430
Kikuchi, Masao; Wickman, Larysa; Hodgin, Jeffrey B et al. (2015) Podometrics as a Potential Clinical Tool for Glomerular Disease Management. Semin Nephrol 35:245-55
Yu, Fa-Xing; Zhao, Bin; Guan, Kun-Liang (2015) Hippo Pathway in Organ Size Control, Tissue Homeostasis, and Cancer. Cell 163:811-28
Fukuda, Akihiro; Wickman, Larysa T; Venkatareddy, Madhusudan P et al. (2012) Angiotensin II-dependent persistent podocyte loss from destabilized glomeruli causes progression of end stage kidney disease. Kidney Int 81:40-55
Wiggins, Jocelyn E (2012) Aging in the glomerulus. J Gerontol A Biol Sci Med Sci 67:1358-64
Fukuda, Akihiro; Chowdhury, Mahboob A; Venkatareddy, Madhusudan P et al. (2012) Growth-dependent podocyte failure causes glomerulosclerosis. J Am Soc Nephrol 23:1351-63
Fukuda, Akihiro; Wickman, Larysa T; Venkatareddy, Madhusudan P et al. (2012) Urine podocin:nephrin mRNA ratio (PNR) as a podocyte stress biomarker. Nephrol Dial Transplant 27:4079-87
Chernin, Gil; Vega-Warner, Virginia; Schoeb, Dominik S et al. (2010) Genotype/phenotype correlation in nephrotic syndrome caused by WT1 mutations. Clin J Am Soc Nephrol 5:1655-62
Chernin, Gil; Heeringa, Saskia F; Vega-Warner, Virginia et al. (2010) Adequate use of allele frequencies in Hispanics--a problem elucidated in nephrotic syndrome. Pediatr Nephrol 25:261-6
Kim, Doyeob; Patel, Sanjeevkumar R; Xiao, Hong et al. (2009) The role of PTIP in maintaining embryonic stem cell pluripotency. Stem Cells 27:1516-23

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