Alterations in B Cell Compartment Correlate with Poor Neutralization Response and Disease Progression in HIV-1 Infected Children

Aggarwal, Heena; Khan, Lubina; Chaudhary, Omkar; Kumar, Sanjeev; Makhdoomi, Muzamil Ashraf; Singh, Ravinder; Sharma, K Aparna; Mishra, Nitesh; Lodha, Rakesh; Srinivas, M; Das, Bimal Kumar; Kabra, S. K.; Luthra, Kalpana

doi:10.3389/fimmu.2017.01697

Cited by 22 publications

(29 citation statements)

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“…At the time of sampling (2015), he was antiretroviral (ART) naïve, the CD4 T cell counts and plasma viral loads were 1033 cells/µl and 85,400 RNA copies/ml respectively. The plasma antibody neutralization activity of AIIMS_330 donor against a few HIV-1 viruses has been previously documented (37, 39, 40). In order to assess the evolution of antibody response in this donor, we further characterized AIIMS_330 (2015) plasma against a large panel of heterologous HIV-1 tier 1, 2 and 3 pseudoviruses (n=33) (Figure 1A, Table S1).…”

Section: Resultsmentioning

confidence: 98%

“…Few longitudinal studies, including ours, conducted on pediatric HIV-1 directed humoral immune response showed that plasma bNAbs develop in select chronically infected children and slow progressors, with diverse epitope specificities, (24, 34–37), and with higher breadth and potency than infected adults (35). Further, the bNAbs present in the plasma of infected children demonstrated similar epitope specificities as that observed for the adult bNAbs (24).…”

Section: Introductionmentioning

confidence: 82%

“…This study describes for the first time, a pediatric bNAb AIIMS-P01 IgG1, isolated from single B cell of an ART naïve HIV-1C chronically infected pediatric LTNP AIIMS_330, and identified as an elite neutralizer in this study, based on plasma mapping analysis. This AIIMS_330 donor belonged to a rare cohort of vertically transmitted ART naïve HIV-1C infected children that have been followed up for more than a decade (37–40). The AIIMS-P01 bNAb isolated from this elite neutralizer showed comparable neutralization efficiency against clade C and B HIV-1 viruses thereby suggesting that this bNAb may neutralize major viral clades responsible for infection globally.…”

Section: Discussionmentioning

confidence: 99%

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An HIV-1 broadly neutralizing antibody from a clade C infected pediatric elite neutralizer potently neutralizes the contemporaneous and autologous evolving viruses

Kumar

Panda

Makhdoomi

et al. 2018

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Keywords 23 HIV-1, clade C, N332 supersite, plasma neutralization, pediatric HIV-1 bNAb, single B cell 24 sorting, elite neutralizer, SOSIP trimer, negative stain EM and 3D reconstruction 25 2 Abstract 26 27 Broadly neutralizing antibodies (bNAbs) have demonstrated protective effects against HIV-1 28 in primate studies and recent human clinical trials. Elite-neutralizers are potential candidates 29 for isolation of HIV-1 bNAbs and coexistence of bNAbs such as BG18 with neutralization 30 susceptible autologous viruses in an HIV-1 infected adult elite controller has been suggested 31 to control viremia. Disease progression is faster in HIV-1 infected children than adults. 32 Plasma bNAbs with multiple epitope specificities are developed in HIV-1 chronically 33 infected children with more potency and breadth than in adults. Therefore, we evaluated the 34 specificity of plasma neutralizing antibodies of an antiretroviral naïve HIV-1 clade C 35 chronically infected pediatric elite neutralizer AIIMS_330. The plasma antibodies showed 36 broad and potent HIV-1 neutralizing activity with >87% (29/33) breadth, median inhibitory 37 dilution (ID50) value of 1246 and presence of N160 and N332-supersite dependent HIV-1 38 bNAbs. The sorting of BG505.SOSIP.664.C2 T332N gp140 HIV-1 antigen-specific single B 39 cells of AIIMS_330 resulted in the isolation of an HIV-1 N332-supersite dependent bNAb 40 AIIMS-P01. The AIIMS-P01 neutralized 67% of HIV-1 cross-clade viruses; exhibited 41 substantial indels despite limited somatic hypermutations; interacted with native-like HIV-1 42 trimer as observed in negative stain electron microscopy and demonstrated high binding 43 affinity. In addition, AIIMS-P01 potently neutralized the coexisting and evolving autologous 44 viruses suggesting the coexistence of vulnerable autologous viruses and HIV-1 bNAbs in 45 AIIMS_330 pediatric elite neutralizer. Further studies on such pediatric elite-neutralizers and 46 isolation of novel HIV-1 pediatric bNAbs may provide newer insights to guide vaccine 47 design.48 49 Total Words: 238 50 51 3 Importance 52 53 More than 50% of the HIV-1 infections globally are caused by clade C viruses. Till date, 54 there is no effective vaccine to prevent HIV-1 infection. Based on the structural information 55 of the currently available HIV-1 bNAbs, attempts are underway to design immunogens that 56 can elicit correlates of protection upon vaccination. Here we report the isolation and 57 characterization of an HIV-1 N332-supersite dependent bNAb AIIMS-P01 from a clade C 58 chronically infected pediatric elite neutralizer. The N332-supersite is an important epitope 59 and is one of the current HIV-1 vaccine targets. AIIMS-P01 potently neutralized the 60 contemporaneous and autologous evolving viruses and exhibits substantial indels despite low 61 somatic hypermutations. Taken together with the information on infant bNAbs, further 62 isolation of bNAbs contributing to the plasma breadth in HIV-1 infected children may help to 63 better understand their development and chara...

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Section: Resultsmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 82%

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

An HIV-1 broadly neutralizing antibody from a clade C infected pediatric elite neutralizer potently neutralizes the contemporaneous and autologous evolving viruses

Kumar

Panda

Makhdoomi

et al. 2018

Preprint

Self Cite

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“…Chronically infected children have been shown to have potent plasma bnAbs with diverse epitope specificities (5,6). In our pediatric cohort of antiretroviral naïve HIV-1C infected long term non-progressors (LTNPs) characterized for plasma antibody responses (6,13–18), we identified a pair of antiretroviral naive HIV-1C infected children AIIMS_329 and AIIMS_330, defined herein as genetically identical twins by their identical HLA haplotypes, who had acquired the infection at birth by vertical transmission. Both twins AIIMS_329 and AIIMS_330 developed potent plasma neutralizing antibodies, with the latter showing elite neutralizing activity since first sampling.…”

Section: Introductionmentioning

confidence: 99%

Viral characteristics associated with sustenance of elite neutralizing activity in chronically HIV-1C infected monozygotic pediatric twins

Mishra

Makhdoomi

Sharma

et al. 2018

Preprint

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15Importance 37Chronically HIV-1 infected children that develop elite neutralizing activity are suitable can-38 didates to understand the mechanisms that lead to the co-evolution of virus and antibody re-39 sponse. Here, we evaluated the alterations in virus and antibody responses over time in chron-40 ically HIV-1C infected monozygotic pediatric twins, AIIMS_329 and AIIMS_330, who had 41 acquired the infection by vertical transmission. AIIMS_330 retained the elite plasma neutral-42izing activity throughout, while in AIIMS_329, the potency decreased post 90 months of age. 43The corresponding viral pool from post 90-month samples in AIIMS_330 showed varied sus-44 ceptibility, while that in AIIMS_329, developed resistance to bnAbs and autologous plasma 45antibodies. The findings of this study, conducted in twin children of same genetic make-up 46 and infected at birth with a single source of HIV-1C, suggest that a viral pool with varied 47 susceptibility to antibodies could have been one of the factors responsible for sustained elite 48 neutralizing activity in AIIMS_330. 49 Keywords 50Epitope mapping, HIV-1C envelope, pediatric HIV-1C infection, broadly neutralizing anti-51 bodies, V2-glycan, V3-glycan, pediatric elite neutralizers. 52

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“…Besides the pyrogenic properties, IL-6 promotes innate and adaptive immune mechanisms (Kishimoto et al, 1992;Yang et al, 2016) properties of IL-6 and IL-10 in B-cell activation and differentiation (Aggarwal et al, 2017;Houssiau et al, 1988;Kishimoto et al, 1992;Yang et al, 2016), and if interpreted in the context of the present study, the two cytokines most likely played some role(s) in pre-seroconversion cellular events that may have ultimately paved the way to the antibody production in the BEFV-infected cattle.…”

Section: Discussionmentioning

confidence: 65%

A study of viral tissue tropism and cytokine expression in Bovine Ephemeral Fever

Barigye¹

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While the clinical and pathological aspects of Bovine Ephemeral Fever (BEF) have been studied in cattle, major gaps still remain in our understanding of the pathogenesis of the disease. In particular, the cytokine networks that underlie fever and inflammation during acute BEF, and mechanisms that mediate the nascent adaptive immune response have not been empirically defined. In addition, the potential in vivo replication sites of BEFV, and the mechanistic events that underlie the paresis and chronic paralysis in some field BEF cases have also not been defined. The objectives of this research were: (1) to characterise the plasma kinetics of proinflammatory cytokines (IL-1β, IL-6, TNF-α) and IL-10 during natural BEFV infections in cattle; (2) to evaluate the plasma kinetics of IL-2, IFN-γ, IL-6, and IL-10 during the period of innate-immune response transition; and (3) to determine the overall tissue tropism and potential replication sites, along with assessing the likelihood of neurotropism of BEFV in naturally infected cattle. For the cytokine expression studies, experiments were carried out on two different cohorts of animals raised at two farms at different time points. Briefly, plasma from three BEFV-infected and three uninfected cattle was tested by cytokine-specific cELISA, viraemia monitored by qRT-PCR, and virus neutralising antibody titres determined using a standard protocol. Similarly, plasma from another four virus-infected and uninfected negative control animals was tested for the four study cytokines (IL-2, IFN-γ, IL-6, and IL-10), and viraemia and virus neutralising antibody titres determined. Biological specimens from nine adult cattle that died or were euthanised at different time points following natural BEFV infections were tested for viral antigen and RNA by IHC and qRT-PCR, respectively. In addition, virus isolation in autogenously derived splenic and haemal node cultures, and electron microscopic examination of ultrathin ii sections from various tissues taken from the steer necropsied seven days after BEF diagnosis were performed. For the neurotropism studies, fresh brain, spinal cord, peripheral nerve, and other tissues were collected from four paralysed and six asymptomatic but virus-infected cattle and tested for viral RNA by qRT-PCR.Formalin-fixed tissues were routinely evaluated for histomorphological lesions and for viral antigen presence and distribution by IHC. Unlike the negative controls, plasma concentrations of IL-1β, TNF-α, IL-6, and IL-10 were consistently increased in the three virus-infected animals. Two of these heifers were recumbent and pyrexic on the first day of monitoring and increased cytokine production was already in progress by the time viraemia was detected in all the three infected animals. In all the virus-infected heifers, IL-1β was the most strongly expressed cytokine, IL-6 and IL-10 manifested intermediate plasma concentrations while TNF-α was the least expressed and demonstrated bi-phasic peaks three and five days after the onset of pyrexia. In two of the BEFV-...

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Alterations in B Cell Compartment Correlate with Poor Neutralization Response and Disease Progression in HIV-1 Infected Children

Cited by 22 publications

References 56 publications

An HIV-1 broadly neutralizing antibody from a clade C infected pediatric elite neutralizer potently neutralizes the contemporaneous and autologous evolving viruses

An HIV-1 broadly neutralizing antibody from a clade C infected pediatric elite neutralizer potently neutralizes the contemporaneous and autologous evolving viruses

Viral characteristics associated with sustenance of elite neutralizing activity in chronically HIV-1C infected monozygotic pediatric twins

A study of viral tissue tropism and cytokine expression in Bovine Ephemeral Fever

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