Identification of potential changes in protein abundance associated with post-traumatic stress disorder through brain proteome-wide association study

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Abstract

Aim

Post-traumatic stress disorder (PTSD) is a common mental disorder with a substantial genetic background. Recent genome-wide association analysis (GWAS) has identified 95 genome-wide significant (GWS) loci in a large cross-ancestry cohort comprising over 1 million samples. However, bridging the GWS findings to potential therapeutic candidates is lagged.

Method

In this study, we integrated the most up-to-date PTSD GWAS data with two human brain proteome datasets using FUSION software to identify potential changes in protein abundance that confer risk for PTSD through proteome-wide association analysis (PWAS).

Results

We identified 20 and 24 proteome-wide significant (PWS) genes from the Banner (n=152) and ROSMAP (n=376) PWAS results, yielding a total of 33 non-overlapping PWS genes. Notably, CTNND1 was the top PWS gene in both PWAS analysis panels. In addition to CTNND1 , the genes TMEM106B , ICA1L , KHK , GPX1 , CCBL2 , MKRN1 , INPP4A , SIRPA , CACNA2D2 , and PDLIM2 also reached PWS levels in both Banner and ROSMAP proteome datasets. Furthermore, we performed colocalization, drug-gene interaction analysis, and synapse function annotation analysis.

Conclusion

Our study uncovered the changes in protein abundance that underlie PTSD etiology, and these genes represent promising candidates for further exploration of the mechanisms underlying PTSD pathogenesis.

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