RF1MH139952

Project Grant

Overview

Grant Description

MODERATE EFFECT SIZE GENES IN AUTISM SPECTRUM DISORDER - PROJECT SUMMARY CONSIDERABLE PROGRESS HAS BEEN MADE IN IDENTIFYING HIGHLY PENETRANT GENES FOR AUTISM SPECTRUM DISORDER (ASD), PARTICULARLY THOSE INVOLVING DELETERIOUS DE NOVO MUTATIONS THAT ARE EVOLUTIONARILY CONSTRAINED AND CRUCIAL FOR DEVELOPMENTAL PROCESSES. THESE MUTATIONS TYPICALLY RESULT IN SYNDROMIC FORMS OF ASD WITH SEVERE SYMPTOMS, BUT THEY ARE RARE AND DO NOT ACCOUNT FOR THE MAJORITY OF ASD CASES. IN CONTRAST, IDENTIFYING GENES WITH A MODERATE EFFECT SIZE (MES), WHICH MAY EXPLAIN THE MORE HERITABLE, MILD, AND BROADER ASD SPECTRUM, HAS BEEN LIMITED. THIS PROJECT AIMS TO IDENTIFY AND CHARACTERIZE MES RISK GENES BY INTEGRATING BOTH RARE AND COMMON GENETIC VARIATION. OUR CENTRAL HYPOTHESIS IS THAT MES GENES SIGNIFICANTLY CONTRIBUTE TO ASD LIABILITY AND MANIFESTATION, PARTICULARLY AMONG INDIVIDUALS WITH A HIGH GENETIC LOAD OF COMMON VARIATION. THE CENTRAL HYPOTHESIS WILL BE TESTED BY PURSUING FOUR SPECIFIC AIMS: (1) IDENTIFY AND CHARACTERIZE MES RISK GENES USING RARE VARIATION STRATIFIED BY COMMON VARIATION; (2) IDENTIFY MES RISK GENES ON CHROMOSOME X USING RARE VARIATION STRATIFIED BY COMMON VARIATION; (3) IDENTIFY MES RISK GENES CONTRIBUTING TO ASD CO-OCCURRING CONDITIONS; AND (4) CLUSTER MES RISK GENES TO IDENTIFY BIOLOGICAL PATHWAYS RELEVANT TO ASD HETEROGENEITY. THIS RESEARCH IS SIGNIFICANT BECAUSE IT SHEDS LIGHT ON THE ROLE OF MES RISK GENES IN ASD LIABILITY AND PRESENTATION, ENHANCING DIAGNOSTIC ACCURACY AND SUPPORTING CLINICAL APPLICATIONS SUCH AS GENETIC COUNSELING AND INDIVIDUALIZED TREATMENT OPTIONS. THE MOST INNOVATIVE PARTS OF OUR PROPOSAL INCLUDE (1) A NOVEL GENE DISCOVERY APPROACH TARGETING MES RISK GENES TYPICALLY OVERLOOKED DUE TO THEIR SUBTLER EFFECTS, (2) THE INTEGRATION OF BOTH COMMON AND RARE GENETIC VARIATIONS TO COMPREHENSIVELY UNDERSTAND THEIR INTERPLAY IN ASD, (3) INVESTIGATING SEX- AND GENETIC ANCESTRY-SPECIFIC ASD RISK FACTORS, PARTICULARLY ON CHROMOSOME X, AND (4) IDENTIFYING GENETIC FACTORS THAT CORRESPOND TO THE HETEROGENEITY WITHIN ASD. IMPORTANTLY, ALTHOUGH METHODOLOGICALLY INNOVATIVE, WE USE LARGE, ESTABLISHED COLLECTIONS OF INDIVIDUALS DIAGNOSED WITH ASD, THEIR FAMILY MEMBERS, AND POPULATION CONTROLS, RE-PURPOSING THESE DATASETS TO PRODUCE NOVEL AND CLINICALLY USEFUL FINDINGS.

Awardee

Icahn School Of Medicine At Mount Sinai

Funding Goals

NOT APPLICABLE

Grant Program (CFDA)

93.242 - Mental Health Research Grants

Awarding / Funding Agency

National Institute of Mental Health (NIMH) [HHS - NIH]

Place of Performance

New York, New York 100296504 United States

Geographic Scope

Single Zip Code

Related Opportunity

Research on Autism Spectrum Disorders (R01 Clinical Trial Optional) (PA-21-201)

Icahn School Of Medicine At Mount Sinai was awarded ASD MES Risk Genes: Rare & Common Variation Integration Project Grant RF1MH139952 worth $3,252,932 from the National Institute of Mental Health in July 2025 with work to be completed primarily in New York New York United States. The grant has a duration of 4 years 9 months and was awarded through assistance program 93.242 Mental Health Research Grants. The Project Grant was awarded through grant opportunity Research on Autism Spectrum Disorders (R01 Clinical Trial Optional).

Status
(Ongoing)

Last Modified 5/21/26

Period of Performance

7/1/25

Start Date

4/30/30

End Date

18.0% Complete

Funding Split

$3.3M

Federal Obligation

$0.0

Non-Federal Obligation

$3.3M

Total Obligated

100.0% Federal Funding

0.0% Non-Federal Funding

Activity Timeline

Additional Detail

Award ID FAIN

RF1MH139952

SAI Number

RF1MH139952-831516661

Award ID URI

SAI UNAVAILABLE

Awardee Classifications

Private Institution Of Higher Education

Awarding Office

75N700 NIH National Institute of Mental Health

Funding Office

75N700 NIH National Institute of Mental Health

Awardee UEI

C8H9CNG1VBD9

Awardee CAGE

1QSQ9

Performance District

NY-13

Senators

Kirsten Gillibrand
Charles Schumer

Modified: 5/21/26

RF1MH139952

Overview

Status (Ongoing)

Activity Timeline

Additional Detail

Status
(Ongoing)