Liver injury from alcohol and other etiologies can culminate in cirrhosis with significant associated morbidity and mortality. Hepatic stellate cell (HSC) activation encompasses a phenotype that includes enhanced migration, proliferation, and matrix deposition. Migration is critical for coordinately situating HSC for matrix deposition and development of cirrhosis. Our Long-Term Objectives are to understand the molecular underpinnings of HSC biology that lead to cirrhosis with the goal of identifying therapeutic targets. Recently, we identified a critical role of synectin in the process of HSC migration and fibrosis. Synectin is a cytosolic protein that mediates signal transduction, vesicle trafficking, and ultimately gene expression. Synectin is chosen for this proposal as a significant protein warranting detailed investigation because, as we demonstrate, it is upregulated in human cirrhosis and is required for murine fibrogenesis. Mechanistically, we implicate synectin in HSC migration through both short term receptor signaling as well as longer term epigenetic regulation of gene expression networks. Our preliminary data show that depletion of HSC synectin reduces migration signaling downstream of the receptor tyrosine kinase, platelet derived growth factor receptor alpha (PDGFR?); attenuates transcription of a set of HSC activation genes including one that encodes the multifunctional signaling protein, IGFBP3 (insulin growth factor binding protein-3); and abrogates murine fibrosis in vivo. These important observations have led us to propose the central hypothesis that synectin increases HSC migration and fibrosis by promoting PDGFR? signaling and by regulating a network of genes that include IGFBP3. This hypothesis leads to the following Specific Aims: 1) Synectin promotes HSC migration by regulating PDGFR? targeting and signal activation.
Aim 1 a will determine how synectin recruits and binds specific vesicle trafficking proteins that maintain PDGFR? protein levels, target the protein to endosomes and activate migration signaling.
Aim 1 b will uncover how disruption of synectin function leads to autophagic degradation of PDGFR? and attenuated HSC migration. 2) Synectin epigenetically controls IGFBP3 gene expression to promote HSC migration.
Aim 2 a will identify how synectin regulates a specific histone methyl transferase, EZH2 and how this governs IGFBP3 gene expression through histone methylation.
Aim 2 b will determine how IGFBP3 production stimulates HSC migration. 3) Synectin regulates fibrosis in vivo.
Aim 3 a will use a novel fibrosis regression model in mice with HSC selective modifications to synectin and PDGFR? to further ascertain the proposed role of these proteins in vivo.
Aim 3 b will use a synectin neutralizing peptide that selectively targets HSC in coordination with magnetic resonance elastography (MRE) imaging, and mice with genetic deletion of IGFBP3 to elucidate how synectin promotes fibrosis in vivo. In total, this proposal will utilize conceptually and technically innovative approaches and concepts to test a novel hypothesis pertaining to synectin as a ?master regulator? of HSC signals that lead to migration and fibrosis.

Public Health Relevance

Public Health Relevance: Cirrhosis is a leading cause of morbidity and mortality in the US and in the world and therefore better understanding of the mechanisms of liver fibrosis development can lead to important prevention and treatment advances. This study will especially explore mechanisms that lead to alcohol induced fibrosis which is a leading cause of cirrhosis and currently lacks effective pharmacological therapies.

Agency
National Institute of Health (NIH)
Institute
National Institute on Alcohol Abuse and Alcoholism (NIAAA)
Type
Research Project (R01)
Project #
5R01AA021171-07
Application #
9478762
Study Section
Hepatobiliary Pathophysiology Study Section (HBPP)
Program Officer
Gao, Peter
Project Start
2012-05-10
Project End
2022-04-30
Budget Start
2018-05-01
Budget End
2019-04-30
Support Year
7
Fiscal Year
2018
Total Cost
Indirect Cost
Name
Mayo Clinic, Rochester
Department
Type
DUNS #
006471700
City
Rochester
State
MN
Country
United States
Zip Code
55905
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