The costimulatory immunogen LPS induces the B-Cell clones that infiltrate transplanted human kidneys

Grover, Rajesh K.; Cheng, Julong; Peng, Yingjie; Jones, Teresa M.; Ruiz, Diana I.; Ulevitch, Richard J.; Glass, John I.; Dennis, Edward A.; Salomon, Daniel R.; Lerner, Richard A.

doi:10.1073/pnas.1202214109

Cited by 23 publications

(16 citation statements)

References 46 publications

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“…Independent of immunosuppression, infections of the urinary tract or posttransplant alterations of the UMB may well lead to additional immune dysregulation and consequent immune‐mediated graft injury. In fact, two recent papers from our laboratory group demonstrate that antibodies produced by B cell clusters commonly found in the biopsies of IFTA subjects are not recognizing donor HLA antigens but rather are specific for Escherichia coli Lipopolysaccharide, a powerful immune activator through the canonical TLR4 receptor . Another of our studies identified the role of a new mycoplasma protein, obtained from a potential human urinary pathogen, as a powerful, polyclonal B cell activator .…”

Section: Introductionmentioning

confidence: 79%

Changes in Urinary Microbiome Populations Correlate in Kidney Transplants With Interstitial Fibrosis and Tubular Atrophy Documented in Early Surveillance Biopsies

Modena

Milam

Harrison

et al. 2017

American Journal of Transplantation

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An unbalanced microbiome may lead to disease by creating aberrant immune responses. A recent association of cellular rejection with the development of interstitial fibrosis and tubular atrophy (IFTA) suggests the role of immune-mediated tissue injury. We hypothesized that developing IFTA correlates with altered urinary tract microbiomes (UMBs). UMBs at two serial time points, 1 and 6-8 months post-transplant, were assessed by 16S microbial ribosomal gene sequencing in 25 patients developing biopsy-proven IFTA compared to 23 transplant patients with normal biopsies and excellent function (TX) and 20 healthy non-transplant controls (HC). Streptococcus, the dominant genera in HC males, was lower in IFTA and TX males at 1 month compared to HCs. At 6-8 months, Streptococcus was further decreased in IFTA males, but normalized in TX. IFTA males and females had increases in number of genera per sample at 6-8 months. UMB composition varied substantially between individuals in all groups. Despite the wide variation in UMBs between individuals, IFTA associated with a loss in dominant resident urinary microbes in males, and a parallel increase in non-resident, pathogenic bacteria in males and females. UMB changes may contribute to IFTA development by alteration of the host immune response.

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Section: Introductionmentioning

confidence: 79%

Changes in Urinary Microbiome Populations Correlate in Kidney Transplants With Interstitial Fibrosis and Tubular Atrophy Documented in Early Surveillance Biopsies

Modena

Milam

Harrison

et al. 2017

American Journal of Transplantation

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“…B-cell receptor specificity for bacterial lipopolysaccharide (LPS) has been recently identified in B cells infiltrating and expanding within human renal allografts undergoing chronic rejection (232). Since LPS can react in these cells with both the BCR and TLR4, these observations led the authors to speculate on the possibility that infection and the attendant exposure to LPS play a role in the chronic rejection of human kidney transplants.…”

Section: Impact Of Infections On the Alloreactive B-cell Repertoire Amentioning

confidence: 99%

Transplantation tolerance and its outcome during infections and inflammation

Chong

Alegre

2014

Immunological Reviews

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Summary Much progress has been made towards understanding the mechanistic basis of transplantation tolerance in experimental models, which includes clonal deletion of alloreactive T and B cells, induction of cell-intrinsic hyporesponsiveness, and dominant regulatory cells that mediate infectious tolerance and linked-suppression. Despite encouraging success in the laboratory, achieving tolerance in the clinic remains challenging, but the basis for these challenges are beginning to be understood. Heterologous memory alloreactive T cells generated by infections prior to transplantation have been shown to be a critical barrier to tolerance induction. Furthermore, infections at the time of transplantation and tolerance induction provide a pro-inflammatory milieu that alters the stability and function of regulatory T cells as well as the activation requirements and differentiation of effector T cells. Thus infections can result in enhanced alloreactivity, resistance to tolerance induction, and destabilization of the established tolerance state. We speculate that these experimental findings have relevance to the clinic, where infections have been associated with allograft rejection and may be a causal event precipitating the loss of grafts after long-periods of stable operational tolerance. Understanding the mechanisms by which infections prevent and destabilize tolerance can lead to therapies that promote stable lifelong tolerance in transplant recipients.

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“…Clonal B-cell proliferation, as well as lymphomas and myelomas, can result from chronic infections with organisms such as Escherichia coli ( E. coli ) and Helicobacter pylori ( H. pylori ) (1–6). The main feature seems to be the approximation of two systems each capable of sustained replication where the replicating microbe induces proliferation and selection of members of the replicating B-cell repertoire.…”

mentioning

confidence: 99%

A Structurally Distinct Human Mycoplasma Protein that Generically Blocks Antigen-Antibody Union

Grover

Zhu

Nieusma

et al. 2014

Science

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We report the discovery and crystal structure of a human mycoplasma protein, Protein M, which binds with high affinity to antibodies, predominantly through attachment to the variable region of the κ and λ light chains. Protein M broadly blocks antibody-antigen union and its mechanism of inhibition is of considerable interest because, as a diversity system, the binding mode of each antibody is different. Protein M thus appears to function by a mechanism that is independent of the sequences of members of the extensive antibody repertoire. By anchoring to conserved regions of the antibody light chains, Protein M is in a position to extend its large C-terminal domain over the antibody combining site and block entrance to macromolecular antigens.

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The costimulatory immunogen LPS induces the B-Cell clones that infiltrate transplanted human kidneys

Cited by 23 publications

References 46 publications

Changes in Urinary Microbiome Populations Correlate in Kidney Transplants With Interstitial Fibrosis and Tubular Atrophy Documented in Early Surveillance Biopsies

Changes in Urinary Microbiome Populations Correlate in Kidney Transplants With Interstitial Fibrosis and Tubular Atrophy Documented in Early Surveillance Biopsies

Transplantation tolerance and its outcome during infections and inflammation

A Structurally Distinct Human Mycoplasma Protein that Generically Blocks Antigen-Antibody Union

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