Top

Published in:

Open Access 01-12-2015 | Case report

A case report of primary ciliary dyskinesia, laterality defects and developmental delay caused by the co-existence of a single gene and chromosome disorder

Authors: Jillian P. Casey, Patricia Goggin, Jennifer McDaid, Martin White, Sean Ennis, David R. Betts, Jane S. Lucas, Basil Elnazir, Sally Ann Lynch

Published in: BMC Medical Genetics | Issue 1/2015

Abstract

Background

Primary ciliary dyskinesia (PCD) is a rare autosomal recessive disorder characterised by abnormal ciliary motion and impaired mucociliary clearance, leading to recurrent respiratory infections, sinusitis, otitis media and male infertility. Some patients also have laterality defects. We recently reported the identification of three disease-causing PCD genes in the Irish Traveller population; RSPH4A, DYX1C1 and CCNO. We have since assessed an additional Irish Traveller family with a complex phenotype involving PCD who did not have any of the previously identified PCD mutations.

Case presentation

In this study we report on a family with three children with PCD and various laterality defects. In addition, one child (V:1) has mild-to-moderate developmental delay and one child has speech delay (V:2). Developmental delay is not usually associated with PCD and is likely to be caused by an additional genetic abnormality. Transmission electron microscopy showed variable inner and outer dynein arm defects. Exome sequencing identified a homozygous missense variant in CCDC103 (c.461A > C; p.His154Pro) as the most likely cause of the PCD and laterality defects in this family. However, as mutation in CCDC103 would not account for the developmental delay, array comparative genomic hybridisation was undertaken and identified a maternally inherited gain of ~1.6 Mb (chr17:34,611,352-36,248,918). Gains at this locus are associated with 17q12 duplication syndrome which includes speech and language delay.

Conclusion

We report on a variable and complex phenotype caused by the co-inheritance of a single gene mutation in CCDC103 and a microduplication at 17q12, both on chromosome 17. The co-existence of a single gene and chromosome disorder is unusual but accounts for the spectrum of clinical features in this family. In addition, our study brings the total number of PCD genes in the Irish Traveller population to four and we suspect additional PCD genes are yet to be identified. Although, on a global scale, PCD is associated with extensive genetic heterogeneity, finding such a high number of causative PCD genes within the relatively small Irish Traveller population was unexpected.

Available only for authorised users

Casey JP, McGettigan PA, Healy F, Hogg C, Reynolds A, Kennedy BN, et al. Unexpected genetic heterogeneity for primary ciliary dyskinesia in the Irish Traveller population. Eur J Hum Genet. 2014. doi:10.1038/ejhg.2014.79.

Lucas JS, Burgess A, Mitchison HM, Moya E, Williamson M, Hogg C, et al. Diagnosis and management of primary ciliary dyskinesia. Arch Dis Child. 2014;99(9):850–6.CrossRefPubMedPubMedCentral

Panizzi JR, Beker-Heck A, Castleman VH, Al-Mutairi DA, Liu Y, Loges NT, et al. CCDC103 mutations cause primary ciliary dyskinesia by disrupting assembly of ciliary dynein arms. Nat Genet. 2012;44(6):714–9.CrossRefPubMedPubMedCentral

D’Andrea G, Schiavulli M, Dimatteo C, Santacroce R, Guerra E, Longo VA, et al. Homozygosity by descent of a 3 Mb chromosome 17 haplotype cases coinheritance of Glanzmann thrombasthenia and primary ciliary dyskinesia. Blood. 2013;122(26):4289–91.CrossRefPubMed

Shapiro AJ, Davis SD, Ferkol T, Dell SD, Rosenfeld M, Olivier KN, et al. Laterality defects other than situs inversus totalis in primary ciliary dyskinesia: Insights into situs ambiguous and heterotaxy. Chest. 2014;146(5):1176–86.CrossRefPubMedPubMedCentral

Bisgrove BW, Morelli SH, Yost HJ. Genetics of human laterality disorders: Insights from vertebrate model systems. Annu Rev Genom Hum G. 2003;4:1–32.CrossRef

Burton EC, Olson M, Rooper L. Defects in laterality with emphasis on heterotaxy syndromes with asplenia and polysplenia: an autopsy case series at a single institution. Pediatr Dev Pathol. 2014;17(4):250–64.CrossRefPubMed

George AM, Love DR, Hayes I, Tsang B. Recurrent transmission of a 17q12 microdeletion and a variable clinical spectrum. Mol Syndromol. 2012;2(2):72–5.PubMed

Faguer S, Chassaing N, Bandin F, Prouheze C, Arveiler B, Rooryck C, et al. A 17q12 chromosomal duplication associated with renal disease and esophageal atresia. Eur J Med Genet. 2011;54(4):e.437–440.CrossRef

10.

Bertini V, Orsini A, Bonuccelli A, Cambi F, Del Pistoia M, Vannozzi I, et al. 17q12 microduplications: a challenge for clinicians. Am J Med Genet A. 2015;167A(3):674–6.CrossRefPubMed

11.

Mefford HC, Clauin S, Sharp AJ, Moller RS, Ullmann R, Kapur R, et al. Recurrent reciprocal genomic rearrangements of 17q12 are associated with renal disease, diabetes, and epilepsy. Am J Hum Genet. 2007;81(5):1057–69.CrossRefPubMedPubMedCentral

12.

Mencarelli MA, Katzaki E, Papa FT, Sampieri K, Caselli R, Uliana V, et al. Private inherited microdeletion/microduplications: implications in clinical practice. Eur J Med Genet. 2008;51(5):409–16.CrossRefPubMed

13.

Nagamani SC, Erez A, Shen J, Li C, Roeder E, Cox S, et al. Clinical spectrum associated with recurrent genomic rearrangements in chromosome 17q12. Eur J Hum Genet. 2010;18(3):278–84.CrossRefPubMed

14.

Caselli R, Ballarati L, Selicorni A, Milani D, Maitz S, Valtorta C, et al. A 12.4 Mb duplication of 17q11.2q12 in a patient with psychomotor developmental delay and minor anomalies. Eur J Med Genet. 2010;53(5):325–8.CrossRefPubMed

15.

Bierhals T, Maddukuri SB, Kutsche K, Girisha KM. Expanding the phenotype associated with 17q12 duplication: Case report and review of the literature. Am J Med Genet Part A. 2013;161A:352–9.CrossRefPubMed

16.

Brandt T, Desai K, Greodberg D, Mehta L, Cohen N, Tryfon A, et al. Complex autism spectrum disorder in a patient with a 17q12 microduplication. Am J Med Genet. 2012;158A(5):1170–7.CrossRefPubMed

17.

Duru C, Otaigbe B. Dextrocardia, situs inversus and multiple congenital cardiac defects in a Nigerian infant. Internet J Cardiol. 2013;11(1):1.

18.

Sagel SD, Davis SD, Campisi P, Dell SD. Update of respiratory tract disease in children with primary ciliary dyskinesia. Proc Am Thorac Soc. 2011;8(5):438–43.CrossRefPubMedPubMedCentral

Title: A case report of primary ciliary dyskinesia, laterality defects and developmental delay caused by the co-existence of a single gene and chromosome disorder
Authors: Jillian P. Casey
Patricia Goggin
Jennifer McDaid
Martin White
Sean Ennis
David R. Betts
Jane S. Lucas
Basil Elnazir
Sally Ann Lynch
Publication date: 01-12-2015
Publisher: BioMed Central
Published in: BMC Medical Genetics / Issue 1/2015
Electronic ISSN: 1471-2350
DOI: https://doi.org/10.1186/s12881-015-0192-z

Keynote webinar | Spotlight on medication adherence

Springer Medicine

A case report of primary ciliary dyskinesia, laterality defects and developmental delay caused by the co-existence of a single gene and chromosome disorder

Abstract

Background

Case presentation

Conclusion

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Background

Case presentation

Conclusion

Please log in to get access to this content

Other articles of this Issue 1/2015

Medium-chain acyl-CoA dehydrogenase deficiency associated with a novel splice mutation in the ACADM gene missed by newborn screening

Leptin and adiponectin DNA methylation levels in adipose tissues and blood cells are associated with BMI, waist girth and LDL-cholesterol levels in severely obese men and women

Kabuki syndrome: a Chinese case series and systematic review of the spectrum of mutations

Novel domain-specific POU3F4 mutations are associated with X-linked deafness: examples from different populations

Molecular and clinical study of a cohort of 110 Algerian patients with autosomal recessive ataxia

Genetic association analysis of miRNA SNPs implicates MIR145 in breast cancer susceptibility