Literature DB >> 10899880

Nonopsonic phagocytosis of zymosan and Mycobacterium kansasii by CR3 (CD11b/CD18) involves distinct molecular determinants and is or is not coupled with NADPH oxidase activation.

V Le Cabec1, C Cols, I Maridonneau-Parini.   

Abstract

Complement receptor type 3 (CR3) was initially described as an opsonic receptor. Subsequently, CR3-mediated lectin-sugar recognition mechanisms have been shown to play a major role in the nonopsonic phagocytosis of several pathogens, among them Mycobacterium tuberculosis. Little is known about the binding and signal transduction mechanisms operating during nonopsonic ingestion through CR3 of different microorganisms. In the present study, we used CHO cells stably transfected with CR3 to show that CR3 was able to mediate internalization of zymosan and pathogenic mycobacteria (Mycobacterium kansasii and Mycobacterium avium) but not that of nonpathogenic species (Mycobacterium smegmatis and Mycobacterium phlei). A combination of mannan and beta-glucan inhibited the phagocytosis of zymosan but had no effect on M. kansasii ingestion. Among six monoclonal antibodies (MAbs) directed against the CD11b subunit of CR3 that decreased zymosan ingestion, only three inhibited M. kansasii phagocytosis. In particular, MAbs known to block the CR3 lectin site affected only internalization of zymosan. Using U937 macrophages, we observed that zymosan ingestion through CR3 induced superoxide production measured by cytochrome c reduction and by translocation of the NADPH oxidase cytosolic component p47phox to the phagosomal membrane, whereas phagocytosis of viable or heat-killed M. kansasii did not. Furthermore, lack of superoxide anion production during phagocytosis of M. kansasii was not due to inhibition of NADPH oxidase per se or superoxide anion scavenging. Together, our results indicate that (i) nonopsonic phagocytosis of zymosan and M. kansasii by CR3 implicates different molecular mechanisms involving multiple and distinct epitopes of CD11b and (ii) CR3 may transduce different cellular responses depending on the sites mediating nonopsonic phagocytosis.

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Year:  2000        PMID: 10899880      PMCID: PMC98424          DOI: 10.1128/IAI.68.8.4736-4745.2000

Source DB:  PubMed          Journal:  Infect Immun        ISSN: 0019-9567            Impact factor:   3.441


  66 in total

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Journal:  Infect Immun       Date:  1995-04       Impact factor: 3.441

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Journal:  J Immunol       Date:  1985-04       Impact factor: 5.422

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5.  NADPH oxidase activation and assembly during phagocytosis.

Authors:  F R DeLeo; L A Allen; M Apicella; W M Nauseef
Journal:  J Immunol       Date:  1999-12-15       Impact factor: 5.422

6.  Membrane complement receptor type three (CR3) has lectin-like properties analogous to bovine conglutinin as functions as a receptor for zymosan and rabbit erythrocytes as well as a receptor for iC3b.

Authors:  G D Ross; J A Cain; P J Lachmann
Journal:  J Immunol       Date:  1985-05       Impact factor: 5.422

7.  Mycobacteria-macrophage interactions. Macrophage phenotype determines the nonopsonic binding of Mycobacterium tuberculosis to murine macrophages.

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Journal:  J Immunol       Date:  1993-12-15       Impact factor: 5.422

8.  Analysis of the sugar specificity and molecular location of the beta-glucan-binding lectin site of complement receptor type 3 (CD11b/CD18).

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Journal:  J Immunol       Date:  1996-02-01       Impact factor: 5.422

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10.  Phagosome-lysosome interactions in cultured macrophages infected with virulent tubercle bacilli. Reversal of the usual nonfusion pattern and observations on bacterial survival.

Authors:  J A Armstrong; P D Hart
Journal:  J Exp Med       Date:  1975-07-01       Impact factor: 14.307
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  27 in total

Review 1.  The many faces of host responses to tuberculosis.

Authors:  H L Collins; S H Kaufmann
Journal:  Immunology       Date:  2001-05       Impact factor: 7.397

2.  Role of Yops and adhesins in resistance of Yersinia enterocolitica to phagocytosis.

Authors:  Nadine Grosdent; Isabelle Maridonneau-Parini; Marie-Paule Sory; Guy R Cornelis
Journal:  Infect Immun       Date:  2002-08       Impact factor: 3.441

3.  Stimulus-specific defect in the phagocytic pathways of annexin 1 null macrophages.

Authors:  Simon Yona; Julia C Buckingham; Mauro Perretti; Roderick J Flower
Journal:  Br J Pharmacol       Date:  2004-06-14       Impact factor: 8.739

4.  NADPH oxidase 2 inhibitor diphenyleneiodonium enhances ROS-independent bacterial phagocytosis in murine macrophages via activation of the calcium-mediated p38 MAPK signaling pathway.

Authors:  Yuanfeng Zhu; Shijun Fan; Ning Wang; Xiaoli Chen; Yongjun Yang; Yongling Lu; Qian Chen; Jiang Zheng; Xin Liu
Journal:  Am J Transl Res       Date:  2017-07-15       Impact factor: 4.060

5.  Protein kinase Cδ is a critical component of Dectin-1 signaling in primary human monocytes.

Authors:  Deena H Elsori; Valentin P Yakubenko; Talat Roome; Praveena S Thiagarajan; Ashish Bhattacharjee; Satya P Yadav; Martha K Cathcart
Journal:  J Leukoc Biol       Date:  2011-06-07       Impact factor: 4.962

Review 6.  Microbial manipulation of receptor crosstalk in innate immunity.

Authors:  George Hajishengallis; John D Lambris
Journal:  Nat Rev Immunol       Date:  2011-03       Impact factor: 53.106

Review 7.  [Immunology of tuberculosis: impact on the development of novel vaccines].

Authors:  T Ulrichs; S H E Kaufmann
Journal:  Internist (Berl)       Date:  2003-11       Impact factor: 0.743

8.  Mycobacterium leprae phenolglycolipid-1 expressed by engineered M. bovis BCG modulates early interaction with human phagocytes.

Authors:  Guillaume Tabouret; Catherine Astarie-Dequeker; Caroline Demangel; Wladimir Malaga; Patricia Constant; Aurélie Ray; Nadine Honoré; Nana Fatimath Bello; Esther Perez; Mamadou Daffé; Christophe Guilhot
Journal:  PLoS Pathog       Date:  2010-10-21       Impact factor: 6.823

9.  Deficiency of NADPH oxidase components p47phox and gp91phox caused granulomatous synovitis and increased connective tissue destruction in experimental arthritis models.

Authors:  Fons A J van de Loo; Miranda B Bennink; Onno J Arntz; Ruben L Smeets; Erik Lubberts; Leo A B Joosten; Peter L E M van Lent; Christina J J Coenen-de Roo; Salvatore Cuzzocrea; Brahm H Segal; Steven M Holland; Wim B van den Berg
Journal:  Am J Pathol       Date:  2003-10       Impact factor: 4.307

10.  Resistance of macrophages to Mycobacterium avium is induced by alpha2-adrenergic stimulation.

Authors:  Kelly E Weatherby; Bruce S Zwilling; William P Lafuse
Journal:  Infect Immun       Date:  2003-01       Impact factor: 3.441
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