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Nonsyndromic cleft lip and palate: CRISPLD genes and the folate gene pathway connection

✍ Scribed by Brett T. Chiquet; Robin Henry; Amber Burt; John B. Mulliken; Samuel Stal; Susan H. Blanton; Jacqueline T. Hecht

Publisher
John Wiley and Sons
Year
2010
Tongue
English
Weight
96 KB
Volume
91
Category
Article
ISSN
1542-0752

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✦ Synopsis

Abstract

BACKGROUND

Nonsyndromic cleft lip with or without cleft palate (NSCLP) is a common birth defect that has a multifactorial etiology. Despite having substantial genetic liability, <15% of the genetic contribution to NSCLP has been delineated. In our efforts to dissect the genetics of NSCLP, we found that variation in the CRISPLD2 (cysteine‐rich secretory protein LCCL domain containing 2) gene is associated with NSCLP and that the protein is expressed in the developing murine craniofacies. In addition, we found suggestive linkage of NSCLP (LOD > 1.0) to the chromosomal region on 8q13.2–21.13 that contains the CRISPLD1 gene. The protein products of both CRISPLD1 and CRISPLD2 contain more cysteine residues than comparably sized proteins. Interestingly, the folic acid pathway produces endogenous cysteines, and variation in genes in this pathway is associated with NSCLP. Based on these observations, we hypothesized that variation in CRISPLD1 contributes to NSCLP and that both CRISPLD genes interact with each other and genes in the folic acid pathway.

METHODS

Single nucleotide polymorphisms (SNPs) in CRISPLD1 were genotyped in our non‐Hispanic white and Hispanic multiplex and simplex NSCLP families.

RESULTS

There was little evidence for a role of variation for CRISPLD1 alone in NSCLP. However, interactions were detected between CRISPLD1/CRISPLD2 SNPs and variation in folate pathway genes. Altered transmission of one CRISPLD1 SNP was detected in the NHW simplex families. Importantly, interactions were detected between SNPs in CRISPLD1 and CRISPLD2 (15 interactions, 0.0031 ≀p < 0.05).

CONCLUSION

These novel findings suggest that CRISPLD1 plays a role in NSCLP through the interaction with CRISPLD2 and folate pathway genes. Birth Defects Research (Part A), 2011. Β© 2010 Wiley‐Liss, Inc.

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