Activation of naïve B lymphocytes via CD81, a pathogenetic mechanism for hepatitis C virus-associated B lymphocyte disorders

Rosa, Domenico; Saletti, Giulietta; Gregorio, Ennio De; Zorat, Francesca; Comar, Consuelo; D’Oro, Ugo; Nuti, Sandra; Houghton, Michael; Barnaba, Vincenzo; Pozzato, Gabriele; Abrignani, Sergio

doi:10.1073/pnas.0509402102

Cited by 260 publications

(223 citation statements)

References 34 publications

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“…This threshold was estimated to be up to 30 Ab molecules per virion for West Nile virus (53,54) and is represented in our model with the relation u i,j = v K j,i between the probabilities u i,j and v j,i of neutralization and immune stimulation. The neutralization effectiveness of the Ab may be further hampered by dilution with low-affinity Abs resulting from boosting of different memory B cells by a viral variant or from polyclonal antigen-independent activation of naive B cells by HCV (55).…”

Section: Discussionmentioning

confidence: 99%

Antigenic cooperation among intrahost HCV variants organized into a complex network of cross-immunoreactivity

Skums

Bunimovich

Khudyakov

2015

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

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Hepatitis C virus (HCV) has the propensity to cause chronic infection. Continuous immune escape has been proposed as a mechanism of intrahost viral evolution contributing to HCV persistence. Although the pronounced genetic diversity of intrahost HCV populations supports this hypothesis, recent observations of long-term persistence of individual HCV variants, negative selection increase, and complex dynamics of viral subpopulations during infection as well as broad cross-immunoreactivity (CR) among variants are inconsistent with the immune-escape hypothesis. Here, we present a mathematical model of intrahost viral population dynamics under the condition of a complex CR network (CRN) of viral variants and examine the contribution of CR to establishing persistent HCV infection. The model suggests a mechanism of viral adaptation by antigenic cooperation (AC), with immune responses against one variant protecting other variants. AC reduces the capacity of the host's immune system to neutralize certain viral variants. CRN structure determines specific roles for each viral variant in host adaptation, with variants eliciting broad-CR antibodies facilitating persistence of other variants immunoreacting with these antibodies. The proposed mechanism is supported by empirical observations of intrahost HCV evolution. Interference with AC is a potential strategy for interruption and prevention of chronic HCV infection.hepatitis C | viral quasispecies | cross-immunoreactivity | complex network | intrahost adaptation H epatitis C virus (HCV) causes chronic infection in ∼ 70% of infected people, who become at risk for developing severe liver diseases (1). The virus establishes chronic infection by using several molecular mechanisms for averting innate immunity and attenuating effectiveness of adaptive immune responses (2). HCV is one of the most heterogeneous viruses infecting humans and exists in each infected host as a population of genetically related variants (3, 4). Substantial heterogeneity and drastic changes in genetic composition of the intrahost HCV population observed during chronic infections have been interpreted as evidence of a continuous immune escape via random mutations, thereby generating increasing genetic diversity of viral populations in infected individuals (5-7).The observed cross-immunoreactivity (CR) of HCV variants from earlier stages of infection with antibodies (Abs) from later stages and ineffectiveness of Abs to immunoreact with variants from the same stage of infection (7) seemingly support the hypothesis of immune escape as a mechanism of intrahost evolution that contributes to establishment of persistent infections. However, several recent observations are incompatible with this hypothesis. First, the intrahost HIV population diversifies and diverts continuously from acute state to chronic infection until, at the onset of immunodeficiency, it starts losing heterogeneity and eventually stops diverting (8). Surprisingly, a similar temporal pattern of diversity and diversion was observed for intraho...

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Section: Discussionmentioning

confidence: 99%

Antigenic cooperation among intrahost HCV variants organized into a complex network of cross-immunoreactivity

Skums

Bunimovich

Khudyakov

2015

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

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“…Consistent with this idea, Ig cloned from a HCV patient with B-NHL was shown to bind to the HCV structural protein E2 (14). It also has been suggested that HCV-E2 directly activates polyclonal B cells by binding to CD81 (15). Others have proposed that direct HCV infection of B cells may cause oncogenic transformation, particularly through t(14;18) translocation (16,17).…”

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confidence: 81%

Expansion of Functionally Anergic CD21−/low Marginal Zone-like B Cell Clones in Hepatitis C Virus Infection-Related Autoimmunity

Terrier

Joly²,

Vazquez

et al. 2011

The Journal of Immunology

108

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Homeostasis of peripheral B cell subsets is disturbed during chronic hepatitis C virus (HCV) infection, leading to the occurrence of autoimmunity and B cell lymphoproliferation. However, mechanisms by which HCV causes lymphoproliferation remain controversial. We report in this article on the elevated number of clonal CD21−/lowIgM+CD27+ marginal zone (MZ)-like B cells, which correlates with autoimmunity and lymphoproliferation in HCV patients. We found an increase in autoreactive BCRs using VH1–69 and VH4–34 genes in CD21−/low MZ B cells. CD21−/low MZ B cells showed impaired calcium-mediated signaling, did not upregulate activation markers, and did not proliferate in response to BCR triggering. CD21−/low MZ B cells also were prone to dying faster than their CD21+ counterparts, suggesting that these B cells were anergic. CD21−/low MZ B cells, in contrast, remained responsive to TLR9 stimulation. Gene array analyses revealed the critical role of Early growth response 2 and Cbl-b in the induction of anergy. Therefore, HCV patients who display high frequencies of unresponsive CD21−/low MZ B cells are more susceptible to developing autoimmunity and/or lymphoproliferation. These cells remain in peripheral blood controlled by functional anergy instead of being eliminated, and chronic antigenic stimulation through TLR stimulation may create a favorable environment for breaking tolerance and activating these cells.

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“…Mouse antihuman antibodies were used to identify immune populations as described in the literature (39,40):anti-hCD45-FITC, anti-hCD4-ECD, antihCD45RA-ECD, anti-hCD127-PE, anti-hCD25-PECy5, anti-hCD3-PECy7, anti-hCD27-PECy5, anti-hCD8-PECy7, anti-hCD31-FITC, anti-hCD19-ECD, anti-hCD16-PECy5, anti-hCD56-PE, and corresponding isotype controls (all from Beckman Coulter). Absolute number of immune subtypes was determined using Flow-Count Fluorospheres and Flow-Count method (Beckman Coulter).…”

Section: Analysis Of Immune Populationsmentioning

confidence: 99%

Preterm neonates show marked leukopenia and lymphopenia that are associated with increased regulatory T-cell values and diminished IL-7

et al. 2012

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IntroductIon: current advances in neonatology have improved survival among preterm and low-birth-weight infants. however, the risk of neonatal death in preterm infants is much greater than in full-term neonates and is frequently associated with infections. Methods: Little is known about the immune status of preterm neonates; therefore, we analyzed the frequency and absolute counts of different immune populations in 211 cord blood samples taken from very-preterm to full-term neonates. results: We found that absolute counts of all the immune subsets analyzed (i.e., monocytes, granulocytes, B cells, natural killer (NK) cells, cD4 + , and cD8 + T cells) were markedly lower in preterm infants than in full-term infants. surprisingly, we observed that regulatory T cells (Tregs) were the only cell subset that did not decrease in preterm infants, and their frequency was even higher than in full-term infants. dIscussIon: Tregs are crucial to maternal-fetal tolerance, but their suppressive role could be also implicated in the leukopenia observed in preterm infants. We did not observe differences in thymic function, but we found that plasma levels of interleukin (IL)-7 and the frequency of its receptor were significantly decreased in preterm infants. Our results could help to identify leukopenia and to implement immune therapies that significantly diminish mortality in preterm neonates. r ecent developments in neonatology and improvements in technology to manage preterm neonates have significantly increased the survival of very-preterm neonates (less than 28 wk of gestation) and very-low-birth-weight infants (less than 1,500 g) (1). However, the relative risk of neonatal death is much greater for preterm infants than for full-term infants, and prematurity has become the leading cause of perinatal morbidity and mortality (2,3). Along with decreasing gestational age (GA), low birth weight is also associated with increased perinatal morbidity and mortality (4). Among the causes responsible for this increased mortality, neonatal sepsis and bronchopulmonary dysplasia are the most frequent causes of death in premature newborns (3).In fact, the most important factors that predispose to infection are prematurity and/or low birth weight.Little is known about innate immunity in premature neonates and the capacity of their immune systems to fight against infections. Several authors have reported differences in phenotype and function of lymphocytes between healthy newborns, children, and adults (5). The immune response of preterm infants is assumed to be immature, although quantitative data on differences in immune capacity between preterm and full-term infants are scant.The objective of this study was to investigate whether the high incidence of infections in preterm infants could be due to an immunodeficiency and, if so, to identify which immune cell populations are implicated in the absence of an adequate immune response. We performed a comprehensive analysis of the frequency and absolute counts of several cell populations in preter...

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Activation of naïve B lymphocytes via CD81, a pathogenetic mechanism for hepatitis C virus-associated B lymphocyte disorders

Cited by 260 publications

References 34 publications

Antigenic cooperation among intrahost HCV variants organized into a complex network of cross-immunoreactivity

Antigenic cooperation among intrahost HCV variants organized into a complex network of cross-immunoreactivity

Expansion of Functionally Anergic CD21−/low Marginal Zone-like B Cell Clones in Hepatitis C Virus Infection-Related Autoimmunity

Preterm neonates show marked leukopenia and lymphopenia that are associated with increased regulatory T-cell values and diminished IL-7

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