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Literature DB >> 7129526

The disappearance kinetics and glomerular deposition of small-latticed soluble immune complexes.

Abstract

The disappearance from circulation and the glomerular localization of human serum albumin (HSA) anti-HSA complexes made at fifty-fold antigen excess were examined in mice and compared with the same features of complexes made at five-fold antigen excess. Complexes prepared at fifty-fold antigen excess consisted principally of small-latticed complexes (Ag2Ab2 and Ag1Ab1) that persisted in the circulation after the initial rapid disappearance attributed to extravasation. The presence of small-latticed complexes in the circulation did not lead to glomerular localization of complexes during a 96 hr period. In contrast, when large-latticed soluble complexes, prepared at five-fold antigen excess, were injected, abundant glomerular deposits developed. These observations indicate that the lattice of circulating immune complexes must exceed the Ag2Ab2 structure in order for glomerular deposition to occur.

Entities: Disease Gene Species

Mesh：

Substances：
Antigen-Antibody Complex

Year: 1982 PMID： 7129526 PMCID： PMC1555543

Source DB: PubMed Journal: Immunology ISSN： 0019-2805 Impact factor: 7.397

13 in total

1. Effect of cortisone on the disappearance kinetics and tissue localization of soluble immune complexes.

Authors: A O Haakenstad; J B Case; M Mannik
Journal: J Immunol Date: 1975-04 Impact factor: 5.422

2. The disappearance kinetics of soluble immune complexes prepared with reduced and alkylated antibodies and with intact antibodies in mice.

Authors: A O Haakenstad; M Mannik
Journal: Lab Invest Date: 1976-09 Impact factor: 5.662

3. Saturation of the reticuloendothelial system with soluble immune complexes.

Authors: A O Haakenstad; M Mannik
Journal: J Immunol Date: 1974-05 Impact factor: 5.422

4. Studies on passive serum sickness. II. Factors determining the localization of antigen-antibody complexes in the murine renal glomerulus.

Authors: A Koyama; Y Niwa; H Shigematsu; M Taniguchi; T Tada
Journal: Lab Invest Date: 1978-03 Impact factor: 5.662

5. In situ immune complex formation and glomerular injury.

Authors: W G Couser; D J Salant
Journal: Kidney Int Date: 1980-01 Impact factor: 10.612

6. Molecular composition and sedimentation characteristics of soluble antigen-antibody complexes.

Authors: W P Arend; D C Teller; M Mannik
Journal: Biochemistry Date: 1972-10-24 Impact factor: 3.162

7. Passive immune complex glomerulonephritis in mice: models for various lesions found in human disease. I. High avidity complexes and mesangiopathic glomerulonephritis.

Authors: F G Germuth; E Rodriguez; C A Lorelle; E I Trump; L Milano; O Wise
Journal: Lab Invest Date: 1979-10 Impact factor: 5.662

8. Passive immune complex glomerulonephritis in mice: models for various lesions found in human disease. II. Low avidity complexes and diffuse proliferative glomerulonephritis with subepithelial deposits.

Authors: F G Germuth; E Rodriguez; C A Lorelle; E I Trump; L L Milano; O Wise
Journal: Lab Invest Date: 1979-10 Impact factor: 5.662

9. The glomerular deposition of soluble immune complexes prepared with reduced and alkylated antibodies and with intact antibodies in mice.

Authors: A O Haakenstad; G E Striker; M Mannik
Journal: Lab Invest Date: 1976-09 Impact factor: 5.662

10. Role of marrow-derived monocytes and mesangial cells in removal of immune complexes from renal glomeruli.

Authors: G E Striker; M Mannik; M Y Tung
Journal: J Exp Med Date: 1979-01-01 Impact factor: 14.307

21 in total

1. Prolonged circulation of immune complexes due to various altered immune functions contributes to nephritis in MRL/lpr mice.

Authors: N A Granholm; T Cavallo
Journal: Clin Exp Immunol Date: 1990-11 Impact factor: 4.330

2. Lipopolysaccharide from gram-negative bacteria enhances polyclonal B cell activation and exacerbates nephritis in MRL/lpr mice.

Authors: T Cavallo; N A Granholm
Journal: Clin Exp Immunol Date: 1990-12 Impact factor: 4.330

3. Repeated exposure to bacterial lipopolysaccharide interferes with disposal of pathogenic immune complexes in mice.

Authors: T Cavallo; N A Granholm
Journal: Clin Exp Immunol Date: 1990-02 Impact factor: 4.330

4. The size and composition of circulating immune complexes during HIV infection.

Authors: L B Korolevskaya; K V Shmagel; N G Shmagel; V A Chereshnev
Journal: Dokl Biochem Biophys Date: 2014-08-30 Impact factor: 0.788

Review 5. Mechanisms of immune deposit formation in renal glomeruli.

Authors: M H Wener; M Mannik
Journal: Springer Semin Immunopathol Date: 1986

6. Studies on rheumatoid factor: I. The effect of rheumatoid factor on the clearance of preformed immune complexes in mice.

Authors: D N Hogben; M E Devey
Journal: Clin Exp Immunol Date: 1986-12 Impact factor: 4.330

7. Differential binding of immunoglobulin A and immunoglobulin G1 immune complexes to primate erythrocytes in vivo. Immunoglobulin A immune complexes bind less well to erythrocytes and are preferentially deposited in glomeruli.

Authors: F J Waxman; L A Hebert; F G Cosio; W L Smead; M E VanAman; J M Taguiam; D J Birmingham
Journal: J Clin Invest Date: 1986-01 Impact factor: 14.808