Ola Sandgren scite author profile

Best macular dystrophy (BMD), also known as vitelliform macular dystrophy (VMD2; OMIM 153700), is an autosomal dominant form of macular degeneration characterized by an abnormal accumulation of lipofuscin within and beneath the retinal pigment epithelium cells. In pursuit of the disease gene, we limited the minimum genetic region by recombination breakpoint analysis and mapped to this region a novel retina-specific gene (VMD2). Genetic mapping data, identification of five independent disease-specific mutations and expression studies provide evidence that mutations within the candidate gene are a cause of BMD. The 3' UTR of the candidate gene contains a region of antisense complementarity to the 3' UTR of the ferritin heavy-chain gene (FTH1), indicating the possibility of antisense interaction between VMD2 and FTH1 transcripts.

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Familial Amyloidotic Polyneuropathy in Sweden: Geographical Distribution, Age of Onset, and Prevalence

Sousa

et al. 1993

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Familial amyloidotic polyneuropathy (FAP) in Swedish patients is associated with the same transthyretin mutation (TTR^Met30) as in Portuguese, Japanese, Brazilian and Majorcan patients. Yet, the age of onset of FAP is much later in Sweden than in other populations. We have studied 239 cases of FAP from northern Sweden, their geographical distribution, differences in age of onset, and estimated prevalence and incidence rates. Cases and families concentrate mainly in two areas, around the towns of Skellefteå and Piteå. Mean age of onset was found to be later in the Piteå (58.8 ± 10.8) than in the Skellefteå area (54.4 ± 13.5). Unusually high figures were found for prevalence rates (91 × 10^–5 and 104 × 10^–5, respectively) in 1985. Mean yearly incidences were 3.1 × 10^–5 and 4.4 × 10^–5, respectively, over the period 1985–1989.

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Modifications of transthyretin in amyloid fibrils: analysis of amyloid from homozygous and heterozygous individuals with the Met30 mutation.

et al. 1993

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The finding of individuals homozygous for FAP I (familial amyloidotic polyneuropathy, transthyretin TTRMet30) with amyloid deposits in the vitreous body, gave us access to a unique material lacking wild type transthyretin and contaminating proteins. Amyloid TTR is modified in several ways. Besides the full‐length protein and its dimer form, two smaller bands were identified by SDS‐PAGE and protein sequencing. One corresponded to a peptide starting at amino acid Thr49, the other was a mixture of two peptides starting at positions 1 and 3 in a 3:1 ratio. Upon reduction the amount of the TTR dimer decreased, the monomer amount increased, and the resulting monomers became available for carboxymethylation. Moreover, the mobility of the small band, which includes Cys10, increased upon reduction. This cysteine seemed to be involved in an interchain disulfide bridge both between intact TTR molecules and between small fragments. The same pattern was found in heterozygous fibril material although smaller amounts of the truncated peptides were found. Fibrils were formed both from normal and mutated TTR in heterozygotes. The significance of our results for amyloid formation is discussed.

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Ocular amyloidosis, with special reference to thehereditary forms with vitreous involvement

Sandgren

1995

Survey of Ophthalmology

124

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The mutation spectrum of the bestrophin protein - functional implications

et al. 1999

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Best's macular dystrophy (BMD), also known as vitelliform macular degeneration type 2 (VMD2; OMIM 153700), is an autosomal dominant form of macular degeneration with mainly juvenile onset. BMD is characterized by the accumulation of lipofuscin within and beneath the retinal pigment epithelium. The gene causing the disease has been localized to 11q13 by recombination breakpoint mapping. Recently, we have identified the causative gene encoding a protein named bestrophin, and mutations have been found mainly to affect residues that are conserved from a family of genes in Caenorhabditis elegans. The function of bestrophin is so far unknown, and no reliable predictions can be made from sequence comparisons. We have investigated the bestrophin gene in 14 unrelated Swedish, Dutch, Danish, and Moroccan families affected with BMD and found eight new mutations. Including the previously published mutations, 15 different missense mutations have now been detected in 19 of the 22 families with BMD investigated by our laboratory. Interestingly, the mutations cluster in certain regions, and no nonsense mutations or mutations causing frame-shifts have been identified. Computer simulations of the structural elements in the bestrophin protein show that this protein is probably membrane bound, with four putative transmembrane regions.

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Ola Sandgren

Identification of the gene responsible for Best macular dystrophy

Familial Amyloidotic Polyneuropathy in Sweden: Geographical Distribution, Age of Onset, and Prevalence

Modifications of transthyretin in amyloid fibrils: analysis of amyloid from homozygous and heterozygous individuals with the Met30 mutation.

Ocular amyloidosis, with special reference to thehereditary forms with vitreous involvement

The mutation spectrum of the bestrophin protein - functional implications

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