Epigenome-wide study identifies methylation differences in monozygotic and dizygotic twins discordant for nonsyndromic cleft lip with or without cleft palateTwin study finds DNA marks linked to cleft lip and palate

medRxiv Published April 13, 2026 Study authors: Petrin, A. L.; Keen, H. L.; Dunlay, L.; Xie, X. J.; Zeng, E.; Butali, A.; Wilcox, A.; Marazita, M. L… DOI ↗ Editorial oversight: Dr. Julia Lee, PhD · Oncology, Genomics & Drug Development

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Key Takeaway

Note epigenetic methylation differences at CYP26A1 in twins discordant for NSCL/P, though causality remains unproven.

This review summarizes an epigenome-wide association study involving 32 monozygotic and 22 dizygotic twin pairs discordant for nonsyndromic cleft lip with or without cleft palate (NSCL/P). The primary analysis compared DNA methylation profiles between twins affected by NSCL/P and their unaffected co-twins to identify differentially methylated CpG sites. Secondary analyses included functional annotation and pathway enrichment analysis to contextualize findings within known biological pathways.

The study identified a differentially methylated region at the CYP26A1 locus, where two CpG sites showed significant methylation differences. Specifically, cg12110262 demonstrated a P-value of 3.21x10-7, while cg15055355 showed a P-value of 1.39x10-3. The second best hit involved the chromatin regulator ANKRD11. Additionally, the analysis revealed significant enrichment in craniofacial enhancers and identified overlap with GWAS-validated cleft genes, including VAX1, PVRL1, SMAD3, and PRDM16.

No safety data, adverse events, or discontinuations were reported, as this was a genetic and epigenetic association study rather than a clinical trial. Key limitations include the observational design, which prevents establishing causality between methylation changes and the development of NSCL/P. The findings are relevant for understanding potential epigenetic mechanisms in craniofacial development but should be interpreted with caution until validated in larger cohorts.

This review analyzed an epigenome-wide association study involving 32 monozygotic and 22 dizygotic twin pairs. In these families, one twin had nonsyndromic cleft lip with or without cleft palate while the other twin was unaffected. The researchers looked for differences in DNA methylation, which are chemical tags on genes that can influence how they work.

The analysis identified significant methylation differences at the CYP26A1 locus and noted another strong signal at the ANKRD11 gene. The study also found that these changes occurred in areas of DNA known to regulate facial development. Additionally, the findings overlapped with genes previously linked to clefts in other large genetic studies.

Because this was a review of a specific type of study, the results show associations rather than direct causes. Readers should understand that having these DNA marks does not guarantee a child will have a cleft, nor does it mean the marks are the only factor. More research is needed to confirm these findings and understand their full role in facial development.

What this means for you:

DNA methylation differences found in twins with cleft lip/palate suggest a link, but more research is needed.

Study Details

EvidenceLevel 5

PublishedApr 2026

View Original Abstract ↓

Introduction: Nonsyndromic cleft lip with or without cleft palate (NSCL/P) is a common congenital malformation with complex etiology involving both genetic and environmental factors. Epigenetic mechanisms may mediate environmental contributions, but separating genetic from environmental effects remains challenging. Methods: We present an epigenome-wide association study with 32 monozygotic and 22 dizygotic twin pairs discordant for NSCL/P on blood and saliva samples. Differential methylation analysis was conducted using linear models to identify CpG sites showing significant methylation differences between affected and unaffected twins followed by functional annotation and pathway enrichment analysis. Results: The top-ranked finding is a differentially methylated region comprising two CpG sites at the CYP26A1 locus, cg12110262 (P = 3.21x10-7) and cg15055355 (P = 1.39x10-3). CYP26A1 is essential for retinoic acid catabolism and craniofacial patterning. The chromatin regulator ANKRD11, which causes KBG syndrome featuring cleft palate was the second best hit. Differentially methylated CpG sites showed significant enrichment in craniofacial enhancers and overlap with multiple GWAS-validated cleft genes including VAX1, PVRL1, SMAD3, and PRDM16. Conclusions: Our findings implicate retinoic acid signaling and chromatin regulation in NSCL/P etiology and demonstrate the value of discordant twin designs for distinguishing environmental from genetic epigenetic contributions to complex malformations.

Epigenome-wide study identifies methylation differences in monozygotic and dizygotic twins discordant for nonsyndromic cleft lip with or without cleft palateTwin study finds DNA marks linked to cleft lip and palate

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Epigenome-wide study identifies methylation differences in monozygotic and dizygotic twins discordant for nonsyndromic cleft lip with or without cleft palateTwin study finds DNA marks linked to cleft lip and palate

Study Details

Genotype-Guided SSRI Prescribing Shows No Short-Term Benefit but Higher Remission at 6 Months

Genetic Testing Helps Some Depression Patients Feel Better Long Term

Clinical research that matters. Delivered to your inbox.

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