BEST1

Vitreoretinochoroidopathy

Clinical Characteristics
Ocular Features: 

Clinical features are variable in this ocular disorder. Small corneas and shallow anterior chambers have been described in some patients.  Chronic narrow angle glaucoma or frank angle closure glaucoma attacks may occur.  Microphthalmia has been reported but nanophthalmos has not been documented.  Presenile cataracts, nystagmus, and strabismus are sometimes present.  Some patients have normal vision but others have a severe reduction in acuity, even blindness.

The vitreous is often liquefied and some patients have a fibrillary vitreous with pleocytosis.  Preretinal white dots and neovascularization are often seen, even in children.  Peripapillary atrophy may extend to the macula which may have cystic edema.  Peripherally in annular fashion there is often a pigmentary retinopathy extending to an equatorial demarcation line at the posterior border.  The ERG is usually moderately abnormal with evidence of rod and cone dystrophy generally in older patients in which some degree of dyschromatopsia is often present.  Some patients demonstrate a concentric reduction in visual field that progresses with age.  A reduced light/dark ratio has also been documented in several families.  Retinal detachment is a risk.  A posterior staphylomas has been noted in a few patients. 

Systemic Features: 

No systemic abnormalities have been reported. 

Genetics

This is an autosomal dominant disorder resulting from mutations in BEST1 (11q13), which is also responsible for Best vitelliform macular dystrophy (153700). 

Pedigree: 
Autosomal dominant
Treatment
Treatment Options: 

No prophylactic treatment has been reported but patients need lifelong monitoring to detect and treat glaucoma, retinal neovascularization, and detachments. 

References
Article Title: 

Mutations of VMD2 splicing regulators cause nanophthalmos and autosomal dominant vitreoretinochoroidopathy (ADVIRC)

Yardley J, Leroy BP, Hart-Holden N, Lafaut BA, Loeys B, Messiaen LM, Perveen R, Reddy MA, Bhattacharya SS, Traboulsi E, Baralle D, De Laey JJ, Puech B, Kestelyn P, Moore AT, Manson FD, Black GC. Mutations of VMD2 splicing regulators cause nanophthalmos and autosomal dominant vitreoretinochoroidopathy (ADVIRC). Invest Ophthalmol Vis Sci. 2004 Oct;45(10):3683-9.

PubMed ID: 
15452077

Macular Dystrophy, Vitelliform 2

Clinical Characteristics
Ocular Features: 

Best disease primarily affects the macular and paramacular areas.  The classical lesion resembles an egg yolk centered on the fovea.  Most patients, however, never exhibit the typical vitelliform lesion and may instead have normal maculae, or irregular yellowish deposits that may even be extrafoveal.  Histologically the RPE contains increased amounts of lipofuscin.  The ‘egg yolk’ is located beneath the neurosensory retina and the overlying retinal circulation often remains intact.  It can evolve into a ‘scrambled egg’ appearance and an apparent fluid level may be evident.  Some patients exhibit only RPE changes including hyper-  or hypopigmentation throughout the macula.  Choroidal neovasculariztion with hemorrhage leading to scarring and gliosis are uncommon but present a serious risk to vision.  The common end point for symptomatic patients is some degree of photoreceptor damage.

Until recently, most reports of Best macular dystrophy did not include genotypic data.  It is therefore difficult to classify families with variants of the disease, such as adult-onset or atypical vitelliform dystrophy but these at least suggest that this may be a heterogeneous disorder.  At the present time, the diagnosis should be reserved for those with an abnormal light-to-dark (Arden) ratio on electro-oculography and a mutation in the BEST1 gene. 

Visual function varies widely and has considerable fluctuation.   As many as 7-9 percent of patients are asymptomatic throughout life and few have vision loss to 20/200.  Many individuals maintain vision of 20/40 or better throughout life.  Some experience episodic acute vision loss to 20/80 or worse but often recover to at least 20/30.  It has been reported that as many as 76 per cent under the age of 40 retain 20/40 and 30 per cent retain this level of vision into the 5th and 6th decade of life.

Other ocular manifestations include hyperopia, esotropia, and, rarely, shallow anterior chambers with angle closure glaucoma.

Systemic Features: 

None have been reported.

Genetics

A mutation in the bestrophin gene (BEST1) located on chromosome 11 (11q13) is responsible for the disease in most patients.  Best disease is usually transmitted in an autosomal dominant pattern from parent to offspring.  A large number of mutations have been found in the BEST1 gene but so far no correlation with severity of disease is possible.  In fact, there is a great deal of clinical variation within families having identical mutations resembling that of the variation found among different mutations.

Several families have also been reported with autosomal recessive inheritance.  Affected offspring had homozygous mutations in the bestrophin gene with reduced light/dark responses and vision loss.  Some have atypical vitelliform retinal and sometimes multifocal lesions.  They may develop angle closure glaucoma.  Their heterozygous parents  have either normal or abnormal EOGs and no visible fundus disease.  So far no families with presumed recessive inheritance of Best macular dystrophy have demonstrated parent-to-child transmission of typical vitelliform lesions.

Genotyping has identified at least 5 forms of vitelliform macular dystrophy.  In addition to the iconic Best disease described here we know of at least four more variants and specific mutations have been identified in three.  No mutation or locus has yet been identified in VMD1 (153840) but it is likely a unique condition since mutations in other genes known to cause vitelliform dystrophy have been ruled out.  Other forms are VMD3 (608161) due to mutations in the PRPH2 gene, VMD4 (616151) resulting from mutations in the IMPG1 gene, and VMD5 (616152) caused by mutations in the IMPG2 gene.

Autosomal dominant vitreoretinochoroidopathy (193220) is an allelic disorder.

Pedigree: 
Autosomal dominant
Autosomal recessive
Treatment
Treatment Options: 

None known for disease.  Subretinal neovascularization may benefit from ablation treatments.

References
Article Title: 

Mutations in IMPG1 Cause Vitelliform Macular Dystrophies. Am

Manes G, Meunier I, Avila-Fern?degndez A, Banfi S, Le Meur G, Zanlonghi X, Corton M, Simonelli F, Brabet P, Labesse G, Audo I, Mohand-Said S, Zeitz C, Sahel JA, Weber M, Dollfus H, Dhaenens CM, Allorge D, De Baere E, Koenekoop RK, Kohl S, Cremers FP, Hollyfield JG, S?(c)n?(c)chal A, Hebrard M, Bocquet B, Garc??a CA, Hamel CP. Mutations in IMPG1 Cause Vitelliform Macular Dystrophies. Am J Hum Genet. 2013 Aug 29. [Epub ahead of print] PubMed PMID: 23993198.

PubMed ID: 
23993198

Biallelic mutation of BEST1 causes a distinct retinopathy in humans

Burgess R, Millar ID, Leroy BP, Urquhart JE, Fearon IM, De Baere E, Brown PD, Robson AG, Wright GA, Kestelyn P, Holder GE, Webster AR, Manson FD, Black GC. Biallelic mutation of BEST1 causes a distinct retinopathy in humans. Am J Hum Genet. 2008 Jan;82(1):19-31. PubMed PMID: 18179881

PubMed ID: 
18179881

Identification of the gene responsible for Best macular dystrophy

Petrukhin K, Koisti MJ, Bakall B, Li W, Xie G, Marknell T, Sandgren O, Forsman K, Holmgren G, Andreasson S, Vujic M, Bergen AA, McGarty-Dugan V, Figueroa D, Austin CP, Metzker ML, Caskey CT, Wadelius C. Identification of the gene responsible for Best macular dystrophy. Nat Genet. 1998 Jul;19(3):241-7.

PubMed ID: 
9662395
Subscribe to RSS - BEST1