M. D. Poulik scite author profile

When human and rabbit 7S γ-globulins were reduced in strong urea solutions by a number of procedures, their molecular weights fell to approximately ⅓ of the original values. Partial separation of the reduction products was achieved using chromatography and starch gel electrophoresis in urea solutions. One of the components of reduced human 7S γ-globulin was isolated by chromatography, identified by starch gel electrophoresis, and subjected to amino acid analyses. The amino acid composition of this component differed from that of the starting material and also from that of the remaining components. A reduced pathological macroglobulin dissociated to components with an average molecular weight of 41,000. Several reduced human myeloma proteins, when subjected to starch gel electrophoresis, yielded individual patterns that nevertheless had features in common with those of reduced normal γ-globulins. Reduction of normal and abnormal γ-globulins was accompanied by the appearance of titratable sulfhydryl groups. Chemical treatments other than reduction were used to determine the type of bond holding the subunits together. It was tentatively concluded that they were linked by disulfide bonds. An hypothesis is presented to relate the structural features of the various γ-globulins in terms of the multiplicity of polypeptide chains in these molecules.

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The SMALL SUBUNIT OF HL-A ANTIGENS IS SS2-Microglobulin

Grey

Kubo

Colón

et al. 1973

361

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ItL-A antigens prepared from human lymphoid cells by treatment of either intact cells or membranes with papain or nonionic detergents have been shown to contain two polypeptide chains. The antigen prepared by treatment of cells or cell membranes with papain contains polypeptide chains with a mol wt of about 34,000 and 11,000 (1), whereas the detergent-solubilized antigen has polypeptides of tool wt about 43,000 and 11,000 (2). Another membrane-bound protein found on human lymphocytes is ~2-microglobulin, an 11,700 mol wt polypeptide which was first isolated from the urine of patients with renal tubular disease (3) and which has subsequently been sequenced and shown to possess a moderate degree of sequence homology to constant region domains of immunoglobulin polypeptide chains (4, 5).

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Polymerization of intact beta 2-microglobulin in tissue causes amyloidosis in patients on chronic hemodialysis.

Gorevic¹,

Muñoz²,

Casey³

et al. 1986

Proc. Natl. Acad. Sci. U.S.A.

159

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Systemic amyloidosis with a predilection for bone and synovium may complicate the course of patients on long-term hemodialysis. This form of amyloidosis can be typed as distinct from other amyloid diseases by using small tissue samples obtained by bone biopsy and at postmortem. Immunoblot analysis of two-dimensional gels of partially solubilized amyloid fibrils established that tissue deposits are composed of monomers, dimers, and higher polymers of beta 2-microglobulin (beta 2m) and that amyloid P component was also present. Anti-beta 2m antiserum recognized fibrils, as shown by immunoelectron microscopy. Purified monomer isolated from dissociated fibrils yielded peptides corresponding to the entire known sequence of beta 2m. Virtually all serum beta 2m, as well as that present in tissue fluid bathing amyloid fibrils, was monomeric. Hemodialysis-related amyloidosis is an example of a deposition disease occurring in hemodialysis patients. We have shown conclusively that, in this amyloid disease, polymerization of an intact normal serum protein to a fibrillar configuration may occur without proteolysis. We propose the designation A beta 2m for this form of amyloid fibril subunit protein.

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M. D. Poulik

Starch Gel Electrophoresis in a Discontinuous System of Buffers

STUDIES ON STRUCTURAL UNITS OF THE Γ-Globulins

The SMALL SUBUNIT OF HL-A ANTIGENS IS SS2-Microglobulin

Polymerization of intact beta 2-microglobulin in tissue causes amyloidosis in patients on chronic hemodialysis.

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