Stickler syndrome caused by COL2A1 mutations: genotype-phenotype correlation in a series of 100 patients

doi:10.1038/ejhg.2010.23

. 2010 Aug;18(8):872-80.

doi: 10.1038/ejhg.2010.23. Epub 2010 Feb 24.

Stickler syndrome caused by COL2A1 mutations: genotype-phenotype correlation in a series of 100 patients

Kristien P Hoornaert¹, Inge Vereecke, Chantal Dewinter, Thomas Rosenberg, Frits A Beemer, Jules G Leroy, Laila Bendix, Erik Björck, Maryse Bonduelle, Odile Boute, Valerie Cormier-Daire, Christine De Die-Smulders, Anne Dieux-Coeslier, Hélène Dollfus, Mariet Elting, Andrew Green, Veronica I Guerci, Raoul C M Hennekam, Yvonne Hilhorts-Hofstee, Muriel Holder, Carel Hoyng, Kristi J Jones, Dragana Josifova, Ilkka Kaitila, Suzanne Kjaergaard, Yolande H Kroes, Kristina Lagerstedt, Melissa Lees, Martine Lemerrer, Cinzia Magnani, Carlo Marcelis, Loreto Martorell, Michèle Mathieu, Meriel McEntagart, Angela Mendicino, Jenny Morton, Gabrielli Orazio, Véronique Paquis, Orit Reish, Kalle O J Simola, Sarah F Smithson, Karen I Temple, Elisabeth Van Aken, Yolande Van Bever, Jenneke van den Ende, Johanna M Van Hagen, Leopoldo Zelante, Riina Zordania, Anne De Paepe, Bart P Leroy, Marc De Buyzere, Paul J Coucke, Geert R Mortier

Affiliations

PMID: 20179744
PMCID: PMC2987380
DOI: 10.1038/ejhg.2010.23

Stickler syndrome caused by COL2A1 mutations: genotype-phenotype correlation in a series of 100 patients

Kristien P Hoornaert et al. Eur J Hum Genet. 2010 Aug.

. 2010 Aug;18(8):872-80.

doi: 10.1038/ejhg.2010.23. Epub 2010 Feb 24.

Authors

Affiliation

¹ Center for Medical Genetics, Ghent University Hospital, Gent, Belgium. [corrected]

PMID: 20179744
PMCID: PMC2987380
DOI: 10.1038/ejhg.2010.23

Erratum in

Eur J Hum Genet. 2010 Aug;18(8):881

Abstract

Stickler syndrome is an autosomal dominant connective tissue disorder caused by mutations in different collagen genes. The aim of our study was to define more precisely the phenotype and genotype of Stickler syndrome type 1 by investigating a large series of patients with a heterozygous mutation in COL2A1. In 188 probands with the clinical diagnosis of Stickler syndrome, the COL2A1 gene was analyzed by either a mutation scanning technique or bidirectional fluorescent DNA sequencing. The effect of splice site alterations was investigated by analyzing mRNA. Multiplex ligation-dependent amplification analysis was used for the detection of intragenic deletions. We identified 77 different COL2A1 mutations in 100 affected individuals. Analysis of the splice site mutations showed unusual RNA isoforms, most of which contained a premature stop codon. Vitreous anomalies and retinal detachments were found more frequently in patients with a COL2A1 mutation compared with the mutation-negative group (P<0.01). Overall, 20 of 23 sporadic patients with a COL2A1 mutation had either a cleft palate or retinal detachment with vitreous anomalies. The presence of vitreous anomalies, retinal tears or detachments, cleft palate and a positive family history were shown to be good indicators for a COL2A1 defect. In conclusion, we confirm that Stickler syndrome type 1 is predominantly caused by loss-of-function mutations in the COL2A1 gene as >90% of the mutations were predicted to result in nonsense-mediated decay. On the basis of binary regression analysis, we developed a scoring system that may be useful when evaluating patients with Stickler syndrome.

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Figures

**Figure 1**
Frequency of clinical and radiographic characteristics in patients with a *COL2A1* mutation (white bars) and patients without a *COL2A1* mutation (black bars). From left to right: the first nine characteristics have a P-value ≤0.05, the next five characteristics are not statistically significant and the remaining characteristic (sensorineural hearing loss) shows reverse significance with P-value <0.005.

**Figure 2**
Frequency of the seven most distinguishing characteristics in both mutation-negative and mutation-positive groups.

**Figure 3**
Overlap in total score between mutation-positive and mutation-negative groups of patients.

**Figure 4**
Box plot presentation of the total scores in both patient groups with Q1 representing the first quartile or 25th centile and Q3 representing the third quartile or 75th centile. Max indicates the maximum score, and min the minimum score, that is not an outlier or that is within 1.5 times the interquartile range (Q1–Q3). Overall, 75% of the patients with a *COL2A1* mutation had a total score ≥9.

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References

1. Stickler GB, Belau PG, Farrell FJ, et al. Hereditary progressive arthro-ophthalmopathy. Mayo Clin Proc. 1965;40:433–455. - PubMed
1. Stickler GB, Hughes W, Houchin P. Clinical features of hereditary progressive arthro-ophthalmopathy (Stickler syndrome): a survey. Genet Med. 2001;3:192–196. - PubMed
1. Majava M, Hoornaert KP, Bartholdi D, et al. A report on 10 new patients with heterozygous mutations in the COL11A1 gene and a review of genotype-phenotype correlations in type XI collagenopathies. Am J Med Genet A. 2007;143:258–264. - PubMed
1. Snead MP, Yates JR. Clinical and molecular genetics of Stickler syndrome. J Med Genet. 1999;36:353–359. - PMC - PubMed
1. Richards AJ, Laidlaw M, Whittaker J, et al. High efficiency of mutation detection in type 1 Stickler syndrome using a two-stage approach: vitreoretinal assessment coupled with exon sequencing for screening COL2A1. Hum Mutat. 2006;27:696–704. - PubMed

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[1] Stickler GB, Belau PG, Farrell FJ, et al. Hereditary progressive arthro-ophthalmopathy. Mayo Clin Proc. 1965;40:433–455. - PubMed

[2] Stickler GB, Belau PG, Farrell FJ, et al. Hereditary progressive arthro-ophthalmopathy. Mayo Clin Proc. 1965;40:433–455. - PubMed

[3] Stickler GB, Hughes W, Houchin P. Clinical features of hereditary progressive arthro-ophthalmopathy (Stickler syndrome): a survey. Genet Med. 2001;3:192–196. - PubMed

[4] Stickler GB, Hughes W, Houchin P. Clinical features of hereditary progressive arthro-ophthalmopathy (Stickler syndrome): a survey. Genet Med. 2001;3:192–196. - PubMed

[5] Majava M, Hoornaert KP, Bartholdi D, et al. A report on 10 new patients with heterozygous mutations in the COL11A1 gene and a review of genotype-phenotype correlations in type XI collagenopathies. Am J Med Genet A. 2007;143:258–264. - PubMed

[6] Majava M, Hoornaert KP, Bartholdi D, et al. A report on 10 new patients with heterozygous mutations in the COL11A1 gene and a review of genotype-phenotype correlations in type XI collagenopathies. Am J Med Genet A. 2007;143:258–264. - PubMed

[7] Snead MP, Yates JR. Clinical and molecular genetics of Stickler syndrome. J Med Genet. 1999;36:353–359. - PMC - PubMed

[8] Snead MP, Yates JR. Clinical and molecular genetics of Stickler syndrome. J Med Genet. 1999;36:353–359. - PMC - PubMed

[9] Richards AJ, Laidlaw M, Whittaker J, et al. High efficiency of mutation detection in type 1 Stickler syndrome using a two-stage approach: vitreoretinal assessment coupled with exon sequencing for screening COL2A1. Hum Mutat. 2006;27:696–704. - PubMed

[10] Richards AJ, Laidlaw M, Whittaker J, et al. High efficiency of mutation detection in type 1 Stickler syndrome using a two-stage approach: vitreoretinal assessment coupled with exon sequencing for screening COL2A1. Hum Mutat. 2006;27:696–704. - PubMed

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Stickler syndrome caused by COL2A1 mutations: genotype-phenotype correlation in a series of 100 patients

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Stickler syndrome caused by COL2A1 mutations: genotype-phenotype correlation in a series of 100 patients

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