23 research outputs found

    Hereditary systemic immunoglobulin light-chain amyloidosis

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    Several members of a family died from renal failure as a result of systemic amyloidosis. Extensive studies to detect previously documented gene mutations associated with amyloidosis failed to identify a causative factor. In search of the genetic basis for this syndrome, amyloid fibrils were isolated from renal tissue of a member of the kin who died while on renal dialysis. Amino acid sequencing of isolated amyloid protein identified sequences compatible with the constant region of the immunoglobulin κ light-chain. Isolation and characterization of κ light-chain protein from serum of an affected member of the kindred revealed mutation in the constant region of κ light-chain, with cysteine replacing serine at amino acid residue 131. This mutation (Ser131Cys) was confirmed by DNA analysis, which identified a single-base change of cytosine to guanine at the second position of codon 131 of the κ light-chain gene (TCT131TGT). DNA analysis of members of the extended family revealed transmission of the Ser131Cys mutation and association with systemic amyloidosis. This amyloid light-chain (AL) amyloidosis, which is a hereditary type of amyloidosis and not the result of a monoclonal plasma cell dyscrasia, may be misdiagnosed and lead to inappropriate chemotherapy

    The Ile-84-->Ser amino acid substitution in transthyretin interferes with the interaction with plasma retinol-binding protein.

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    In plasma the thyroid hormone-binding protein transthyretin (TTR) forms a tight complex with the specific retinol carrier retinol-binding protein (RBP). The Ile-84–>Ser mutation and several other point mutations in TTR are associated with familial amyloidotic polyneuropathy, which is characterized by extracellular depositions of amyloid fibrils mainly consisting of mutated TTRs. The interactions with human RBP of recombinant human normal and Ser-84 TTRs were investigated by monitoring the fluorescence anisotropy of RBP-bound retinol. A nearly negligible affinity of the recombinant Ser-84 TTR for RBP was found. This result indicates the participation of a region on the outer surface of TTR that comprises Ile-84 in the recognition of RBP. In preliminary studies the Ser-84 TTR was the only one among several amyloidogenic variant TTRs to display negligible interaction with RBP. Therefore, in general a substantially altered binding of TTR to RBP is not associated with familial amyloidotic polyneuropathy. Instead, the altered binding of Ser-84 TTR to RBP appears to be responsible for an abnormal plasma transport of RBP. The recombinant normal TTR exhibits binding properties, in its interaction with human RBP, approximately similar to those of TTR purified from human plasma. Two independent and equivalent RBP binding sites on recombinant normal TTR are characterized by a dissociation constant of about 0.4 microM

    Specificity of bovine enterokinase toward protein substrates

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    We examined the potential use of bovine enterokinase for the limited proteolysis of proteins containing sequences of one or more acidic residues preceding a basic residue. Proteolysis was followed by observing the appearance of fragments by sodium dodecyl sulfate-gel electrophoresis. The susceptible peptide bond was identified from a knowledge of the size of the fragment and the amino acid sequence of the protein. Bovine serum albumin was resistant to proteolysis in its native state, was somewhat susceptible as the S-carboxyamidomethyl derivative, and was highly susceptible as the S-carboxymethyl derivative. S-Alkylated soybean trypsin inhibitor and hen egg white lysozyme were both susceptible to limited hydrolysis, but only in the presence of deoxycholate. All susceptible bonds were either lysine or arginine. The preceding acidic residues could be either aspartic acid, glutamic acid, or carboxymethyl cysteine. If a single acidic residue immediately preceded the basic residue, the rate of hydrolysis was slow. The rate of hydrolysis was also slow if a carboxymethyl cysteine was introduced at the position following the basic residue. In addition to better defining the specificity of enterokinase, these results indicate that enterokinase may be useful in amino acid sequence studies for the production of large fragments. The enzyme may also be useful in DNA-recombinant studies in releasing the desired polypeptide chain from neighboring sequences

    Structural analyses of fibrinogen amyloid fibrils

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    Hereditary fibrinogen amyloidosis is characterized by deposition of amyloid fibrils in renal glomeruli. The subunit protein of the amyloid fibrils is a proteolytic fragment of the fibrinogen Aa-chain. To investigate the structure of fibrinogen amyloid, fibrils were extracted from the tissues of a patient and studied by X-ray fiber diffraction and electron microscopy. We have carried out a full structural characterization of amyloid fibrils taken from disease tissue. These studies revealed that ex vivo fibrinogen amyloid fibrils have a cross-ß structure similar to other chemical types of amyloid fibrils
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