We report the isolation and characterization of cDNA clones for a novel isoform of lysyl hydroxylase (lysyl hydroxylase 2), a posttranslational enzyme of collagen biosynthesis. The open reading frame predicted a protein of 737 amino acids, including an amino-terminal signal peptide. The amino acid sequence has overall similarity of over 75% to the lysyl hydroxylase (lysyl hydroxylase 1) characterized earlier. This similarity is even higher in the carboxyl-terminal end of the molecules. Lysyl hydroxylase 2 contains nine cysteine residues, which are conserved in lysyl hydroxylase 1. Furthermore, the conserved histidines and aspartate residues required for lysyl hydroxylase activity are present in the sequence. Northern analysis identified a transcript of 4.2 kilobases, which was highly expressed in pancreas and muscle tissues. Expression of cDNA in insect cells using a baculovirus vector yielded proteins with lysyl hydroxylase activity and an antiserum against a synthetic peptide of the deduced amino acid sequence recognized proteins with molecular weights of 88 and 97 kDa in homogenates of the transfected cells.
Molecular studies showed that even in families with apparent dominant inheritance, the actual mode of inheritance was autosomal recessive. This was explained not only by the observed consanguinity in some families but by an enrichment of three different mutations of the ClC-1 gene and a consequent high number of compound heterozygotes in the population. One of the mutations is unique to northern Finland. The conspicuous enrichment of the mutations is likely due to the founder effect and isolation by distance, as in other diseases in the Finnish heritage.
In northern Finland myotonia congenita is caused by three main mutations in the ClC-1 chloride channel. We studied the molecular basis of these mutations (1238T>G/F413C, 1592C>T/A531V, and 2680C>T/R894X). The mutated cDNAs were expressed either in L6 myotubes or in isolated rat myofibers using recombinant Semliki Forest virus. Experiments in L6 cells indicated that A531V and R894X proteins suffered from stability problems in these cells. Analysis in myofibers indicated that the A531V protein was totally retained in the endoplasmic reticulum (ER), whereas the export of the F413C protein was severely reduced. The C-terminal nonsense mutant (R894X), however, was normally transported to the Golgi elements in the myofibers. Defective export or reduced stability of the mutated proteins may thus be reasons for the myotonic symptoms.
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