Fibroblast growth factor 21 (FGF21) analogs are in development for metabolic dysfunction-associated steatotic liver disease (MASLD), but their impact on problematic alcohol use (PAU), alcohol use diso Show more
Fibroblast growth factor 21 (FGF21) analogs are in development for metabolic dysfunction-associated steatotic liver disease (MASLD), but their impact on problematic alcohol use (PAU), alcohol use disorder, binge drinking, and alcohol-related liver disease (ALD) is unknown. We leveraged genome-wide association study data from the UK Biobank, FinnGen, Million Veterans Program, and GenomALC for PAU, alcohol use disorder, binge drinking, weekly drinks, and ALD. Our four-tier evaluation included: (1) multivariable Mendelian randomization (MR) and mediation with circulating FGF21 levels; (2) comparative MR of MASLD and ALD targets (PNPLA3, TM6SF2, HSD17B13) using liver fat and expression instruments; (3) receptor-focused MR of β-Klotho (KLB) and FGFR1/2/3 incorporating brain-region expression; and (4) a phenome-wide MR across 1,022 traits to assess safety. Genetically higher FGF21 protein levels were associated with lower PAU (β = -0.097, 95% CI -0.135 to -0.059, p = 6.13 × 10 Human genetic evidence indicates that FGF21 analogs mitigate hazardous drinking and ALD via both behavioral and metabolic pathways. These findings distinguish FGF21 from other MASLD targets and highlight its potential for precision treatment of alcohol-related disorders. This study leverages human genetic evidence to validate FGF21 - a liver-derived hormone currently in clinical trials for fatty liver disease - as a dual-action therapeutic that both curbs harmful drinking behaviors and protects against alcohol-related liver injury, addressing a critical therapeutic gap with limited existing pharmacotherapies. The results are important for clinicians and researchers seeking precision medicine strategies for alcohol use disorder and liver disease, as well as for patients who currently face limited treatment options. By pinpointing FGF21's behavioral and metabolic pathways and demonstrating a favorable safety profile, our findings support the repurposing of FGF21 analogs in clinical trials of alcohol use disorder and alcohol-related liver disease and suggest that genetic stratification could optimize patient selection for therapy. While these conclusions rely on European-ancestry genetic data and Mendelian randomization assumptions, they help inform future clinical studies, biomarker development, and policy efforts aimed at expanding treatment options for alcohol-related conditions. Show less
Excessive alcohol consumption during pregnancy is associated with high risk of congenital heart defects, but it is unclear how alcohol specifically affects heart development during the acute aftermath Show more
Excessive alcohol consumption during pregnancy is associated with high risk of congenital heart defects, but it is unclear how alcohol specifically affects heart development during the acute aftermath of a maternal binge drinking episode. We hypothesize that administration of a single maternal binge dose of alcohol to pregnant mice at embryonic day 9.5 (E9.5) causes perturbations in the expression patterns of specific genes in the developing heart in the acute period (1-3 days) following the binge episode. To test this hypothesis and identify strong candidate ethanol-sensitive target genes of interest, we adapted a mouse binge alcohol model that is associated with a high incidence of congenital heart defects as described below. Pregnant mice were administered a single dose of alcohol (2.5 g/kg in saline) or control (saline alone) via oral gavage. To evaluate the impact of maternal binge alcohol on cardiac gene expression profiles, we isolated embryonic hearts from both groups (n = 5/group) at 24, 48, and 72 h post-gavage for transcriptomic analyses. RNA was extracted and evaluated using quantitative RNA-sequencing (RNA-Seq) methods. To identify a cohort of binge-altered cardiac genes, we set the threshold for change at >2.0-fold difference with adjusted p < 0.05 versus control. RNA-Seq analysis of cardiac gene expression revealed that of the 17 genes that were altered within the first 48 h post-binge, with the largest category consisting of transcription factors (Alx1, Alx4, HoxB7, HoxD8, and Runx2), followed by signaling molecules (Adamts18, Dkk2, Rtl1, and Wnt7a). Furthermore, multiple comparative and pathway analyses suggested that several of the candidate genes identified through differential RNA-Seq analysis may interact through certain common pathways. To investigate this further, we performed gene-specific qPCR analyses for three representative candidate targets: Runx2, Wnt7a, and Mlxipl. Notably, only Wnt7a showed significantly (p < 0.05) decreased expression in response to maternal binge alcohol in the qPCR assays. These findings identify Wnt7a and a short list of potential other candidate genes and pathways for further study, which could provide mechanistic insights into how maternal binge alcohol consumption produces congenital cardiac malformations. Show less