Nirmal K. Banda scite author profile

Although 13 years have passed since identification of human immunodeficiency virus-1 (HIV-1) as the cause of AIDS, we do not yet know how HIV kills its primary target, the T cell that carries the CD4 antigen. We and others have shown an increase in the percentage of apoptotic cells among circulating CD4+ (and CD8+) T cells of HIV-seropositive individuals and an increase in frequency of apoptosis with disease progression. However, it is not known if this apoptosis occurs in infected or uninfected T cells. We show here, using in situ labelling of lymph nodes from HIV-infected children and SIV-infected macaques, that apoptosis occurs predominantly in bystander cells and not in the productively infected cells themselves. These data have implications for pathogenesis and therapy, namely, arguing that rational drug therapy may involve combination agents targeting viral replication in infected cells and apoptosis of uninfected cells.

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Identification of a central role for complement in osteoarthritis

Wang

Rozelle

Lepus

et al. 2011

Nat Med

485

503

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Osteoarthritis, characterized by the breakdown of articular cartilage in synovial joints, has long been viewed as the result of “wear and tear”1. Although low-grade inflammation is detected in osteoarthritis, its role is unclear2–4. Here we identify a central role for the inflammatory complement system in the pathogenesis of osteoarthritis. Through proteomic and transcriptomic analyses of synovial fluids and membranes from individuals with osteoarthritis, we find that expression and activation of complement is abnormally high in human osteoarthritic joints. Using mice genetically deficient in C5, C6, or CD59a, we show that complement, and specifically the membrane attack complex (MAC)-mediated arm of complement, is critical to the development of arthritis in three different mouse models of osteoarthritis. Pharmacological modulation of complement in wild-type mice confirmed the results obtained with genetically deficient mice. Expression of inflammatory and degradative molecules was lower in chondrocytes from destabilized joints of C5-deficient mice than C5-sufficient mice, and MAC induced production of these molecules in cultured chondrocytes. Furthermore, MAC co-localized with matrix metalloprotease (MMP)-13 and with activated extracellular signal-regulated kinase (ERK) around chondrocytes in human osteoarthritic cartilage. Our findings indicate that dysregulation of complement in synovial joints plays a critical role in the pathogenesis of osteoarthritis.

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Complement proteins bind to nanoparticle protein corona and undergo dynamic exchange in vivo

et al. 2016

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When nanoparticles are intravenously injected into the body, complement proteins deposit on the surface of nanoparticles in a process called opsonization. These proteins prime the particle for removal by immune cells and may contribute toward infusion-related adverse effects such as allergic responses. The ways complement proteins assemble on nanoparticles have remained unclear. Here, we show that dextran-coated superparamagnetic iron oxide core-shell nanoworms incubated in human serum and plasma are rapidly opsonized with the third complement component (C3) via the alternative pathway. Serum and plasma proteins bound to the nanoworms are mostly intercalated into the nanoworm shell. We show that C3 covalently binds to these absorbed proteins rather than the dextran shell and the protein-bound C3 undergoes dynamic exchange in vitro. Surface-bound proteins accelerate the assembly of the complement components of the alternative pathway on the nanoworm surface. When nanoworms pre-coated with human plasma were injected into mice, C3 and other adsorbed proteins undergo rapid loss. Our results provide important insight into dynamics of protein adsorption and complement opsonization of nanomedicines.

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Crosslinking CD4 by human immunodeficiency virus gp120 primes T cells for activation-induced apoptosis.

et al. 1992

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Summ~aryDuring human immunodeficiency virus (HIV) infection there is a profound and selective decrease in the CD4 + population of T lymphocytes. The mechanism of this depletion is not understood, as only a small fraction of all CD4 + cells appear to be productively infected with HIV-1 in seropositive individuals. In the present study, crosslinking of bound gp120 on human CD4 + T cells followed by signaling through the T cell receptor for antigen was found to result in activation-dependent cell death by a form of cell suicide termed apoptosis, or programmed cell death. The data indicate that even picomolar concentrations of gp120 prime T cells for activationinduced cell death, suggesting a mechanism for CD4 + T cell depletion in acquired immune deficiency syndrome (AIDS), particularly in the face of concurrent infection and antigenic challenge with other organisms. These results also provide an explanation for the enhancement of infection by certain antibodies against HIV, and for the paradox that HIV appears to cause AIDS after the onset of antiviral immunity.T he immunodeficiency that defines AIDS is due primarily to a progressive decline in the number and function of CD4 + T cells. The mechanism of this decline is debated, though lyric infection of cells targeted by interaction of CD4 with the envelope glycoprotein of the HIV virion, gp120, is an obvious model (1-4), and recent data suggest an apoptotic mechanism of cell death after HIV infection (5). However, previous studies have found that only 1 in 1-10 x 104 PBMC actively express HIV-1 in patients with AIDS (6-10), and immune dysfunction is seen early in infection, before a significant proportion of CD4 + cells has been eliminated (11-15). Thus, it is likely that mechanisms other than direct viral destruction contribute to CD4 + T cell loss and to the anergy associated with CD4 + T cell-dependent immune responses.Mouse splenic T cells pretreated with anti-CD4 antibodies die by apoptosis when stimulated through the oL/~ TCR (16). Apoptosis is an active form of physiologic cell death, requiring RNA and protein synthesis, which is characterized by the activation of endogenous endonucleases that cleave chromatin DNA between nucleosomes (17, 18). Here we report that crosslinking of gp120 on human CD4 + T cells followed by signaling through the TCR results in activation-induced cell death. This cell death has the characteristic features of apoptosis, including the histologic changes of nuclear and cytoplasmic condensation and DNA fragmentation into nucleosome-sized multimers of 200 bp. Our data provide a mechanism for the recent observation that CD4 + T cells from HIV-infected individuals are primed in vivo for suicide by apoptosis, upon TCR activation by both superantigen and MHC class II-restricted antigens (19). Materials and Methodslsola~'on ofCD4 + T Cells. Human T ceils were separated from Ficoll-Hypaque-isolated PBMC by rosetting with 2-aminoethylisothio-uronium bromide hydrobromide (AET)-treated SRBC, as described (20). CD4 + calls were isolated by incu...

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Nirmal K. Banda

Apoptosis occurs predominantly in bystander cells and not in productively infected cells of HIV- and SIV-infected lymph nodes

Identification of a central role for complement in osteoarthritis

Complement proteins bind to nanoparticle protein corona and undergo dynamic exchange in vivo

Crosslinking CD4 by human immunodeficiency virus gp120 primes T cells for activation-induced apoptosis.

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