π Local Job Near You
Post Doctoral Fellow-MSH-12908-019
Mount Sinai Health System
π
New York, United States
Location
New York
Posted
June 18, 2026
Commute
Local Area
Local Opportunity Near You!
This job is in your area. Enjoy a short commute and work close to home.
Job Description
**Job Description**
**Details of Research Project** :
Title: Hippo pathway signaling in podocyte injury and glomerular disease
Our lab has identified Hippo pathway upstream regulator KIBRA (Kidney BRAin) protein as a novel mediator of podocyte injury via inhibition of downstream pro-survival transcriptional co-activator YAP. Our previous work has demonstrated that upregulated KIBRA podocyte expression increases susceptibility to a murine model of FSGS and also that _WWC1_ (the gene encoding KIBRA) is a risk gene for glomerular disease progression in human podocytopathies. Preliminary data suggests that increased KIBRA/Hippo pathway activation enhances podocyte injury in a diabetic milieu. We aim to test this hypothesis and the potential therapeutic role of small molecule Hippo mediators using complementary models including immortalized podocytes, hIPSC-derived podocytes and kidney organoids, diabetic rodent models, and banked human kidney tissue/biosamples....
**Details of Research Project** :
Title: Hippo pathway signaling in podocyte injury and glomerular disease
Our lab has identified Hippo pathway upstream regulator KIBRA (Kidney BRAin) protein as a novel mediator of podocyte injury via inhibition of downstream pro-survival transcriptional co-activator YAP. Our previous work has demonstrated that upregulated KIBRA podocyte expression increases susceptibility to a murine model of FSGS and also that _WWC1_ (the gene encoding KIBRA) is a risk gene for glomerular disease progression in human podocytopathies. Preliminary data suggests that increased KIBRA/Hippo pathway activation enhances podocyte injury in a diabetic milieu. We aim to test this hypothesis and the potential therapeutic role of small molecule Hippo mediators using complementary models including immortalized podocytes, hIPSC-derived podocytes and kidney organoids, diabetic rodent models, and banked human kidney tissue/biosamples....