H.H. Lemmink

Benign familial hematuria due to mutation of the type IV collagen alpha4 gene.

Benign familial hematuria (BFH) is characterized by autosomal dominant inheritance, thinning of the glomerular basement membrane (GBM) and normal renal function. It is frequent in patients with persistent microscopic hematuria, but cannot be clinically differentiated from the initial stages of Alport syndrome, a severe GBM disorder which progresses to renal failure. We present here linkage of benign familial hematuria with the COL4A3 and COL4A4 genes at 2q35-37 (Zmax = 3.58 at theta = 0.0). Subsequently, a glycine to glutamic acid substitution was identified in the collagenous region of the COL4A4 gene. We conclude that type IV collagen defects cause both benign hematuria and Alport syndrome. Furthermore, our data suggest that BFH patients can be carriers of autosomal recessive Alport syndrome.

Linkage of Gitelman syndrome to the thiazide-sensitive sodium-chloride cotransporter gene with identification of mutations in Dutch families

Abstract. Gitelman syndrome is a mostly autosomal recessive disorder affecting the renal tubular function associated with hypokalemia and hypomagnesemia. Functional studies point to a defect in the distal renal tubule in the thiazide-sensitive, electroneutral sodium-chloride cotransporter (TSC). Based upon the localization of a 2.6 cDNA encoding the human TSC to chromosome 16q13, polymorphic markers spanning the region from 16p12 to 16q21 were tested for linkage to the Gitelman syndrome locus in three Dutch families with autosomal recessive inheritance of this disorder. Using two-point linkage analysis, a maximum LOD score (Zmax of 4.49 (at Θ = 0.00) was found for the marker D16S408. One crucial recombination event places the Gitelman syndrome locus distal to D16S419 at 16q12-13. Subsequently we have tested our group of Gitelman patients for mutations in the human TSC gene. Two mutations were identified in three Gitelman families. Our study confirms that the human TSC gene is involved in Gitelman syndrome. Patients from three Gitelman families reveal two identical human TSC mutations, suggesting these families share a common ancestor.

Hereditary disorders of the glomerular basement membrane

Abstract. Increased knowledge of the biochemical composition of the glomerular basement membrane (GBM) and the introduction of molecular genetics has shed new light on the hereditary disorders of the GBM. In this review three disorders are highlighted. About 85% of the cases reported as Alport syndrome are transmitted as the X-linked form and are due to mutations of the COl4A5 chain localized at Xq22. The autosomal recessive form can be explained by mutations in the COl4A3 and COl4A4 gene. Anti-GBM nephritis leading to loss of the renal allograft in about 1%u200a–u200a5% of transplanted Alport patients can be the tragic consequence of this disorder. Some patients with familial benign hematuria have an abnormality of COl4A4. The nail-patella syndrome is a rare autosomal dominant disorder defined by the association of nail dysplasia, bone abnormalities, and frequently renal disease. The gene is localized in region 9q34.1, COl5A1 is not involved. The Finnish type is the best known of the different forms of congenital nephrotic syndrome. The gene has been mapped to the long arm of chromosome 19. Diffuse mesangial sclerosis occurs in the isolated form and as part of the Denys Drash syndrome. Disturbances of the WT1 function in the epithelial cells can have a role in the renal abnormalities of the Denys Drash syndrome.