Meta-analysis finds sex-specific genetic variant linked to platelet aggregation

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medRxiv Published May 23, 2026 Medically reviewed May 23, 2026 Study authors: Ngwa, J. S.; Chen, M.-H.; Brady, G.; Yanek, L. R.; Kammers, K.; Kanchan, K.; Taub, M. A.; Dun, Y.; C… DOI ↗ By Dr. Julia Lee, PhD · Oncology, Genomics & Drug Development

Key Takeaway

Interpret this sex-specific genetic association with platelet aggregation as preliminary and associative, not ready for clinical use.

This meta-analysis pooled data from three independent cohorts (GeneSTAR, Framingham Heart Study, Old Order Amish) to investigate genetic variants associated with platelet aggregation in response to low-dose epinephrine. The primary analysis focused on the LINC00702 region, where variant rs116725046 exhibited a genome-wide significant sex interaction (p = 5.2e-9), with opposite phenotypic effects in women and men: female carriers showed increased aggregation, while male carriers showed decreased aggregation. Additionally, five SNPs driving the lowest meta-analysis p-value (p = 8.3e-9) were identified.

The study is a meta-analysis of genome-wide association studies, providing associative evidence rather than causal links. The authors did not report limitations, sample size, or follow-up duration. No safety data or practice relevance were provided.

Clinicians should interpret these findings cautiously, as the genetic associations require replication and functional validation before any clinical application. The sex-specific effect highlights potential biological differences in thrombotic risk, but no immediate practice changes are warranted.

Study Details

Study typeMeta analysis

EvidenceLevel 1

PublishedMay 2026

View Original Abstract ↓

Sex-specific genetic effects on platelet aggregation may contribute to differences in thrombotic risk between women and men, yet the underlying genetic mechanisms remain poorly defined. We performed whole-genome sequencing-based genome-wide association studies (GWAS) of 19 harmonized platelet aggregation phenotypes in response to ADP, epinephrine (EPI), and collagen across three independent cohorts: GeneSTAR, the Framingham Heart Study and the Old Order Amish. Our meta-analysis identified a cluster of low-frequency variants within a 20 kb region on chromosome 10 showing strong sex-specific associations with platelet aggregation in response to low-dose EPI. The lead variant, rs116725046, exhibited a genome-wide significant sex interaction (p = 5.2e-9), with opposite phenotypic effects in women and men. Female carriers demonstrated substantially increased platelet aggregation, whereas male carriers showed decreased aggregation, consistent across cohorts. Several additional variants in tight linkage disequilibrium yielded comparable interaction signals for low-dose EPI, including five SNPs driving the lowest meta-analysis p-value (p = 8.3e-9). The associated variants reside within an intronic region of the long noncoding gene LINC00702, with FUMA annotations indicating regulatory chromatin states. Megakaryocyte epigenome data also indicates potential regulatory activity in platelet precursor cells near the lead variants. eQTL analyses suggested sex-differentiated genetic regulation of LINC00702 in multiple tissues, with reduced expression in male heterozygotes only. An ARE motif was identified upstream of LINC00702, supporting a potential hormone-responsive regulatory mechanism. Together, these findings identify a novel sex-specific regulatory locus influencing platelet reactivity and highlight LINC00702 as a biologically plausible mediator of sexually dimorphic platelet responses.