# Whole Exome Sequencing Uncovers Genetic Syndromes Associated with Orofacial Clefts presenting with Limb abnormalities in a Sub-Saharan African cohort

**Authors:** Edna Tackie, Solomon Obiri-Yeboah, Gideon Okyere Mensah, Tamara D. Busch, Bruce Tsri, Daniel Kwesi Sabbah, Christian Opoku Asamoah, Alexander Acheampong Oti, Gyikua Plange-Rhule, Adebowale A. Adeyemo, Peter Donkor, Azeez Butali, Lord Jephthah Joojo Gowans

PMC · DOI: 10.21203/rs.3.rs-8340088/v1 · 2025-12-15

## TL;DR

This study identifies genetic causes of orofacial clefts with limb abnormalities in a Sub-Saharan African cohort using whole exome sequencing.

## Contribution

The study provides novel insights into the genetic basis of syndromic orofacial clefts with limb anomalies in an underrepresented African population.

## Key findings

- Plausible pathogenic variants in genes like TP63, NIPBL, MYH3, and FGFR2 were identified in four cases.
- Multiple rare variants in developmentally relevant genes were found in other cases, impacting craniofacial and limb development.
- A TP63 variant was found in a multiplex family, supporting autosomal dominant inheritance with variable expressivity.

## Abstract

Orofacial clefts (OFCs) are the most frequent congenital craniofacial anomalies that occur during embryonic development. The incidence is ~1 in 700 live births; it may occur in isolation or with other abnormalities, such as limb deformities. Congenital limb malformations are the second most prevalent birth defect, affecting 1 per 500 to 1000 live births. It can also occur in isolation or as part of a syndrome. This study investigated the genetic aetiology of OFCs co-occurring with limb abnormalities in a Sub-Saharan African cohort.

Nine unrelated probands with concurrent OFC and limb anomalies were recruited, including one multiplex family involving an affected mother and proband. Whole exome sequencing (WES) was performed at 100X on the DNA samples obtained from affected families, utilising paired-end configuration on the Illumina HiSeq platform. Variant calling utilized the Sentieon workflow. Rare, deleterious variants were identified in accordance with the American College of Medical Genetics and Genomics (ACMG) guidelines on variant classification. De novo and other variants predicted as pathogenic were prioritized based on all possible Mendelian inheritance patterns, including variable penetrance and expressivity. Pathway enrichment analysis, protein-protein interactions, and gene expression analysis were undertaken to decipher the biological functions of implicated genes.

All cases were syndromic, presenting with preaxial and postaxial limb anomalies along with other craniofacial features. WES revealed plausible pathogenic variants in pleiotropic genes (TP63, NIPBL, MYH3, FGFR2) in four simplex cases. In four other simplex probands, multiple rare variants were identified in developmentally relevant genes (e.g., RGPD5, FAM90A26, FOXD4L1, FAM170A, DLG1, ANKRD1, TRIM74, TRIM73, PRDM9) necessary for normal craniofacial and limb development. The multiplex family had two affected individuals (the mother and the proband), both carrying a TP63 variant, consistent with autosomal dominant inheritance with variable expressivity. Most of the observed variants were de novo, with some being novel.

While some cases can be attributed to single-gene syndromes (e.g., NIPBL-associated Cornelia de Lange Syndrome), others may result from multiple co-occurring syndromes. These findings will inform recurrence risk estimates, genetic counselling, and clinical management.

## Linked entities

- **Genes:** TP63 (tumor protein p63) [NCBI Gene 8626], NIPBL (NIPBL cohesin loading factor) [NCBI Gene 25836], MYH3 (myosin heavy chain 3) [NCBI Gene 4621], FGFR2 (fibroblast growth factor receptor 2) [NCBI Gene 2263], RGPD5 (RANBP2 like and GRIP domain containing 5) [NCBI Gene 84220], FAM90A26 (family with sequence similarity 90 member A26) [NCBI Gene 100287045], FOXD4L1 (forkhead box D4 like 1) [NCBI Gene 200350], FAM170A (family with sequence similarity 170 member A) [NCBI Gene 340069], DLG1 (discs large MAGUK scaffold protein 1) [NCBI Gene 1739], ANKRD1 (ankyrin repeat domain 1) [NCBI Gene 27063], TRIM74 (tripartite motif containing 74) [NCBI Gene 378108], TRIM73 (tripartite motif containing 73) [NCBI Gene 375593], PRDM9 (PR/SET domain 9) [NCBI Gene 56979]
- **Diseases:** Cornelia de Lange Syndrome (MONDO:0016033)

## Full-text entities

- **Genes:** TRIM73 (tripartite motif containing 73) [NCBI Gene 375593] {aka TRIM50B}, FAM170A (family with sequence similarity 170 member A) [NCBI Gene 340069] {aka ZNFD}, ANKRD1 (ankyrin repeat domain 1) [NCBI Gene 27063] {aka ALRP, C-193, CARP, CVARP, MCARP, bA320F15.2}, FGFR2 (fibroblast growth factor receptor 2) [NCBI Gene 2263] {aka BBDS, BEK, BFR-1, CD332, CEK3, CFD1}, MYH3 (myosin heavy chain 3) [NCBI Gene 4621] {aka CPSFS1A, CPSFS1B, CPSKF1A, CPSKF1B, DA2A, DA2B}, TP63 (tumor protein p63) [NCBI Gene 8626] {aka AIS, B(p51A), B(p51B), EEC3, KET, LMS}, TRIM74 (tripartite motif containing 74) [NCBI Gene 378108] {aka TRIM50C}, PRDM9 (PR/SET domain 9) [NCBI Gene 56979] {aka KMT8B, MEISETZ, MSBP3, PFM6, ZNF899}, DLG1 (discs large MAGUK scaffold protein 1) [NCBI Gene 1739] {aka DLGH1, SAP-97, SAP97, hdlg}, NIPBL (NIPBL cohesin loading factor) [NCBI Gene 25836] {aka CDLS, CDLS1, IDN3, IDN3-B, Scc2}, FAM90A26 (family with sequence similarity 90 member A26) [NCBI Gene 100287045] {aka FAM90A26P}, FOXD4L1 (forkhead box D4 like 1) [NCBI Gene 200350] {aka FOXD5, bA395L14.1}, RGPD5 (RANBP2 like and GRIP domain containing 5) [NCBI Gene 84220] {aka BS-63, BS63, HEL161, RGP5}
- **Diseases:** Congenital limb malformations (MESH:D017880), OFC (MESH:C563481), Cornelia de Lange Syndrome (MESH:D003635), Limb abnormalities (MESH:D001259), craniofacial anomalies (MESH:D019465), OFCs (MESH:C566121), birth defect (MESH:D000014), preaxial (MESH:C566784), limb anomalies (MESH:C537769)

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12776487/full.md

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Source: https://tomesphere.com/paper/PMC12776487