Two exonic genetic variants in apolipoprotein L1 (APOL1), common in those of recent African ancestry, have a major negative impact on the kidney health of African-Americans. While its association with kidney disease has been reproducibly demonstrated, the full genetic architecture of APOL1 associated nephropathy, and its underlying biology, is unclear. Without such knowledge, the ability to develop targeted pharmacologic therapies is remote. The long-term goal is to improve clinical outcomes for individuals who have APOL1- associated nephropathy. The overall objective here is to gain a deep understanding of the biology of APOL1- associated proteinuric disease by integrating genetic, intrarenal transcriptomic, morphologic, and clinical datasets derived from 720 human subjects with proteinuric disease enrolled in the Nephrotic Syndrome Study Network. The central hypothesis is that the high-risk APOL1 genotype, as well as increased APOL1 expression, results in APOL1-specific and genome-wide alterations of intrarenal gene expression, specific morphologic changes in the kidney, and worse clinical outcomes. The rationale for this proposal is that a more complete understanding of the genome biology of APOL1, as well as the intrarenal consequences of its aberrant forms, can lead to development of molecularly-based pharmacologic strategies to prevent/treat APOL1-associated proteinuric disease.
The specific aims of the study will be to (1) Discover genetic factors at the APOL1 locus associated with its glomerular and tubulointerstitial mRNA expression, (2) Determine the clinical outcomes and biologic context associated with intrarenal mRNA expression of APOL1, and (3) Define morphologic signatures associated with APOL1-associated proteinuric disease.
Aim 1 will pair genotyping data with renal biopsy-based, RNA-Seq-generated gene expression profiles on the gene and transcript level of specificity.
Aim 2 will apply longitudinal model building and differential- and intercorrelated-gene expression methods to clinical and genome-wide transcriptomic data, respectively.
Aim 3 will use deep quantitative and qualitative morphologic measurements of the glomerular, tubulointerstitial, and vascular compartments of over 650 biopsies. The contribution here is expected to be an increased understanding of the genetic architecture and potential biological mechanisms underlying APOL1-associated nephropathy, from a human-based, intrarenal perspective. This contribution will be significant because it will produce insights about APOL1- associated nephropathy with potential for direct translation into molecularly-derived, targeted therapeutic strategies. The research proposed in this application is innovative, in our opinion, because the discoveries made regarding the epidemiology and biology of APOL1-associated proteinuric disease will be directly derived not only from a large cohort of affected human subjects, but from the kidney tissue directly impacted by these genetic variants. Given the high-risk genotype's generalized negative impact across kidney conditions, discoveries made here may be extended to improve the health of a larger group of African-Americans beyond those with proteinuric disease.

Public Health Relevance

African-Americans with two copies of common exonic variants in apolipoprotein L1 (APOL1) have a greatly increased risk of development of a number of proteinuric glomerular diseases, as well as more severe renal functional decline in chronic kidney disease of any etiology. Achieving a greater understanding of the genetic architecture and regulation of APOL1 and discovering the biological mechanisms underlying APOL1-associated proteinuric disease is the major objective of this proposal. We will achieve this objective by integrating genetic, intrarenal transcriptomic, morphologic, and clinical datasets derived from over 650 human subjects with proteinuric disease enrolled in the Nephrotic Syndrome Study Network

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
1R01DK108805-01
Application #
9080860
Study Section
Special Emphasis Panel (ZDK1)
Program Officer
Rasooly, Rebekah S
Project Start
2016-03-01
Project End
2021-01-31
Budget Start
2016-03-01
Budget End
2017-01-31
Support Year
1
Fiscal Year
2016
Total Cost
Indirect Cost
Name
University of Michigan Ann Arbor
Department
Pediatrics
Type
Schools of Medicine
DUNS #
073133571
City
Ann Arbor
State
MI
Country
United States
Zip Code
48109
Zhang, Jia-Yue; Wang, Minxian; Tian, Lei et al. (2018) UBD modifies APOL1-induced kidney disease risk. Proc Natl Acad Sci U S A 115:3446-3451
Gillies, Christopher E; Putler, Rosemary; Menon, Rajasree et al. (2018) An eQTL Landscape of Kidney Tissue in Human Nephrotic Syndrome. Am J Hum Genet 103:232-244
Sanna-Cherchi, Simone; Khan, Kamal; Westland, Rik et al. (2017) Exome-wide Association Study Identifies GREB1L Mutations in Congenital Kidney Malformations. Am J Hum Genet 101:789-802
Ng, Derek K; Robertson, Catherine C; Woroniecki, Robert P et al. (2017) APOL1-associated glomerular disease among African-American children: a collaboration of the Chronic Kidney Disease in Children (CKiD) and Nephrotic Syndrome Study Network (NEPTUNE) cohorts. Nephrol Dial Transplant 32:983-990
Sampson, Matthew G (2017) The Democratization of Genomic Inquiry Empowers Our Understanding of Nephrotic Syndrome. Transplantation 101:2814-2815
Crawford, Brendan D; Gillies, Christopher E; Robertson, Catherine C et al. (2017) Evaluating Mendelian nephrotic syndrome genes for evidence for risk alleles or oligogenicity that explain heritability. Pediatr Nephrol 32:467-476
Robertson, Catherine C; Gillies, Christopher E; Putler, Rosemary K B et al. (2017) An investigation of APOL1 risk genotypes and preterm birth in African American population cohorts. Nephrol Dial Transplant 32:2051-2058
Woroniecki, Robert P; Ng, Derek K; Limou, Sophie et al. (2016) Renal and Cardiovascular Morbidities Associated with APOL1 Status among African-American and Non-African-American Children with Focal Segmental Glomerulosclerosis. Front Pediatr 4:122
Sampson, Matthew G; Robertson, Catherine C; Martini, Sebastian et al. (2016) Integrative Genomics Identifies Novel Associations with APOL1 Risk Genotypes in Black NEPTUNE Subjects. J Am Soc Nephrol 27:814-23