Characterization of human organ donors testing positive for type 1 diabetes-associated autoantibodies.

In this study we aim to describe the characteristics of non-diabetic organ donors with circulating diabetes-associated autoantibodies collected within the Nordic Network for Islet Transplantation. One thousand and thirty organ donors have been screened in Uppsala for antibodies against glutamic acid decarboxylase (GADA) and islet antigen-2 (IA-2A). The 32 non-diabetic donors that tested positive for GADA (3.3% of all non-diabetic donors) were studied in more detail, together with 32 matched controls. Mean age among the autoantibody-positive donors was 52.6 (range 21-74), family history of type 1 diabetes (T1D) was unknown, and no donor was genetically predisposed for T1D regarding the human leucocyte antigen (HLA) locus. Subjects were analysed for islet cell antibodies (ICA), insulin autoantibodies (IAA) and zinc transporter 8 antibodies (ZnT8A), and pancreas morphology and clinical data were examined. Eight non-diabetic donors tested positive for two antibodies and one donor tested positive for four antibodies. No insulitis or other signs of a diabetic process were found in any of the donors. While inflammatory cells were present in all donors, subjects with high GADA titres had significantly higher CD45 cell numbers in exocrine tissue than controls. The extent of fibrosis was more pronounced in autoantibody-positive donors, even in subjects with lower GADA titres. Notably, it is possible that events not related directly to T1D (e.g. subclinical pancreatitis) may induce autoantibodies in some cases.

New Alzheimer's disease locus on chromosome 8.

BACKGROUND: Family history is one of the most consistent risk factors for dementia. Therefore, analysis of families with a distinct inheritance pattern of disease can be a powerful approach for the identification of previously unknown disease genes. OBJECTIVE: To map susceptibility regions for Alzheimer's disease. METHODS: A complete genome scan with 369 microsatellite markers was carried out in 12 extended families collected in Sweden. Age at disease onset ranged from 53 to 78 years, but in 10 of the families there was at least one member with age at onset of < or =65 years. Mutations in known early-onset Alzheimer's disease susceptibility genes have been excluded. All people were genotyped for APOE, but no clear linkage with the epsilon4 allele was observed. RESULTS: Although no common disease locus could be found in all families, in two families an extended haplotype was identified on chromosome 8q shared by all affected members. In one of the families, a non-parametric multimarker logarithm of the odds (LOD) score of 4.2 (p = 0.004) was obtained and analysis based on a dominant model showed a parametric LOD score of 2.4 for this region. All six affected members of this family shared a haplotype of 10 markers spanning about 40 cM. Three affected members in another family also shared a haplotype in the same region. CONCLUSION: On the basis of our data, we propose the existence of a dominantly acting Alzheimer's disease susceptibility locus on chromosome 8.

The mutation spectrum of the bestrophin protein--functional implications.

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.

Clinical expression of Best's vitelliform macular dystrophy in Swedish families with mutations in the bestrophin gene.

OBJECTIVE: To examine the clinical phenotype of three Swedish families with Best's vitelliform macular dystrophy (BMD) and three different mutations in the recently identified bestrophin gene. METHODS: Three families, including 13 patients, were examined clinically using visual acuity testing, electro-oculography, fundus inspection, and fundus photography. The mutations were previously determined by direct sequence analysis of the individual exons in the bestrophin gene. RESULTS: The largest family (SL76), with the Y85K (T357C) mutation in the bestrophin gene, demonstrated a clinical phenotype characterized by a variable degree of visual acuity reduction and a marked intrafamilial variability in macular pathology. The electro-oculograms, however, demonstrated similar results in all patients regardless of the severity of the macular dysfunction. The smallest family (SL3), with the mutation V9A (T130C) in the bestrophin gene, and the family (SL2) with the mutation D104E (C416A) demonstrated a similar clinical phenotype. The majority of patients (11/13 examined subjects) had a binocular visual acuity of 20/63 or better at a late stage of the disease course, indicating a relatively good prognosis for visual acuity in this specific phenotype. The ophthalmoscopic changes were followed in one of the patients for 38 years and in three of the patients for 19 years and showed that the macular appearance seems to be stable after adolescence. CONCLUSIONS: Patients with BMD and mutations in the bestrophin gene have a similar clinical phenotype characterized by a variable, but relatively moderate visual acuity reduction, atrophic changes in the macula, and pathological results of the electro-oculograms. The macular appearance remains essentially unchanged through the atrophic stage (stage IV) in the majority of patients, indicating a stationary disease course associated with this specific genotype.