In vivo characterization of macrophage-tropic simian immunodeficiency virus molecular clones in rhesus macaques.

Macrophages are a major target of HIV/SIV infection and play an important role in pathogenesis by serving as viral reservoirs in the central nervous system. Previously, a unique early SIVmac251 envelope (Env) variant, deSIV147 was cloned from blood of a rhesus macaque with rapid disease progression and SIV-associated encephalitis. Here, we show that infectious molecular clone deSIV147 caused systemic infection in rhesus macaques following intravenous or intrarectal exposure. Next, we inoculated deSIV147 into macaques depleted of CD4+ T cells and found that animals were SIV-positive, with high plasma and CSF viral loads. These macaques also showed SIVp17-positive macrophages in brain, lymph nodes, colon, lung, and liver. Furthermore, accumulation of perivascular macrophages, multinucleated giant cells, and microgliosis was detected. These findings suggest that the neurotropic deSIV147 clone will be useful to study macrophage infection in HIV/SIV-associated neurocognitive disorders, gain insights into myeloid cell reservoirs in brain and other anatomical sites, as well as test strategies for eradication.

Association of Cytokines With Exosomes in the Plasma of HIV-1-Seropositive Individuals.

Human immunodeficiency virus (HIV)-infected and viremic individuals exhibit elevated levels of plasma cytokines. Here we show that most cytokines are not in free form but appear associated with exosomes that are distinct from virions. Purified exosomes were analyzed to determine the levels of 21 cytokines and chemokines and compared with exosome-depleted plasma. Most cytokines were markedly enriched in exosomes from HIV-positive individuals relative to negative controls and to plasma. Moreover, exposure of naive peripheral blood mononuclear cells to exosomes purified from HIV-positive patients induced CD38 expression on naive and central memory CD4(+) and CD8(+) T cells, probably contributing to inflammation and viral propagation via bystander cell activation.

Ex vivo rectal explant model reveals potential opposing roles of Natural Killer cells and Marginal Zone-like B cells in HIV-1 infection.

Our understanding of innate immune responses in human rectal mucosal tissues (RM) and their contributions to promoting or restricting HIV transmission is limited. We defined the RM composition of innate and innate-like cell subsets, including plasmacytoid dendritic cells; CD1c + myeloid DCs; neutrophils; macrophages; natural killer cells (NK); Marginal Zone-like B cells (MZB); γδ T cells; and mucosal-associated invariant T cells in RM from 69 HIV-negative men by flow cytometry. Associations between these cell subsets and HIV-1 replication in ex vivo RM explant challenge experiments revealed an inverse correlation between RM-NK and p24 production, in contrast to a positive association between RM-MZB and HIV replication. Comparison of RM and blood-derived MZB and NK illustrated qualitative and quantitative differences between tissue compartments. Additionally, 22 soluble molecules were measured in a subset of explant cultures (n = 26). Higher production of IL-17A, IFN-γ, IL-10, IP-10, GM-CSF, sFasL, Granzyme A, Granzyme B, Granulysin, and Perforin following infection positively correlated with HIV replication. These data show novel associations between MZB and NK cells and p24 production in RM and underscore the importance of inflammatory cytokines in mucosal HIV infection, demonstrating the likely critical role these innate immune responses play in early mucosal HIV replication in humans.

Author Correction: Distribution of Functional CD4 and CD8 T cell Subsets in Blood and Rectal Mucosal Tissues.

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Distribution of Functional CD4 and CD8 T cell Subsets in Blood and Rectal Mucosal Tissues.

A better understanding of the distribution and functional capacity of CD4 T helper (Th) and CD8 T cytotoxic (Tc) cell subsets in the rectal mucosa (RM), a major site for HIV acquisition and replication, in adults is needed. In this study, we compared the distribution of Th and Tc cell subsets between blood and RM compartments in 62 HIV negative men, focusing primarily on IL-17-producing CD4 and CD8 T cells due to their importance in establishing and maintaining mucosal defenses, and examined associations between the frequencies of Th17 and Tc17 cell subsets and the availability of highly HIV-susceptible target cells in the RM. The RM exhibited a distinct immune cell composition comprised of higher frequencies of Th2, Th17, and Tc17 cells compared to the peripheral blood. The majority of Tc17 cells in RM were quadruple-cytokine producers (IL-17A+, IFN-γ+, TNF-α+, and IL4+), whereas most Th17 cells in blood and RM were single IL-17A producers or dual-cytokine producers (IL-17A+TNF-α+). In a separate cohort of 21 HIV positive men, we observed similar tissue distributions of Th and Tc cell subsets, although Tc17 cell frequencies in both blood and tissues were very low. Higher frequencies of multi-cytokine-producing Th17 and Tc17 cells in RM of HIV negative men positively correlated with increased mucosal HIV target cells, suggesting a need to further characterize the effector functions of these cells and their role in HIV acquisition and pathogenesis.

Molecular cloning, expression and functional characterization of the chicken cation dependent mannose 6-phosphate receptor protein.

Mammalian mannose 6-phosphate (M6P) receptors function in transport of lysosomal enzymes. To understand the structural and functional significance of the chicken cation dependent mannose 6-phosphate receptor (MPR) (Mr 46 kDa), a full-length cDNA for the chicken protein was cloned and expressed in mpr(-/-) MEF cells devoid of both the receptors. The stably transfected cells express the receptor that could be affinity purified by phosphomannan chromatography. The authenticity of the receptor was confirmed by its immuno-reactivity with mammalian MPR 46 antibodies and its ability to sort cathepsin D in transfected cells (92.3%) as compared to mock transfected cells (50.2%), establishing a functional role for the chicken receptor.

TIM-3, a Possible Target for Immunotherapy in Cancer and Chronic Viral Infections.

Effector T-cell responses are controlled by complex mechanisms involving various soluble factors and co-stimulatory and co-inhibitory molecules. These inhibitory receptors act as immune checkpoints and are extensively investigated as possible therapeutic targets, such as PD-1 and CTLA-4. Recently TIM-3 is also gaining prominence in tumor and chronic viral infection models as a candidate for immunotherapy in conjunction with other inhibitory receptors. This review discusses the recent findings on the expression of TIM-3 and its ligand in tumor and chronic viral infection.

Characterization of the mannose 6-phosphate receptor (Mr 300 kDa) protein dependent pathway of lysosomal enzyme targeting in Biomphalaria glabrata mollusc cells.

Mammalian mannose 6-phosphate receptors (MPR 300 and 46) are involved in the targeting of newly synthesized lysosomal enzymes and only MPR 300 also participates in the endocytosis of various exogenous ligands. The present study describes for the first time the MPR 300 dependent pathway of lysosomal enzyme sorting in the Biomphalaria glabrata embryonic (Bge) cells. Lysosomal enzymes (arylsulfatase A, beta-hexosaminidase and alpha-fucosidase) were identified by their enzymatic activities and by immunoprecipitation with specific antisera. Exposure of Bge cells to unio MPR 300 antiserum resulted in a dramatic loss of MPR 300 protein with a shortened half life of approximately 20 min as compared to control cells exposed to preimmune serum in which the half life of MPR 300 was of approximately 13 h. Loss of receptor proteins resulted in a significant misrouting of newly synthesized lysosomal enzymes and their secretion in cell culture medium as demonstrated by immunoprecipitation. The ability of Bge cells to uptake and internalize labeled arylsulfatase A, beta-hexosaminidase and alpha-fucosidase enzymes contained in cell secretion products also indicated the role of B. glabrata MPR 300 (CIMPR) protein in internalization and targeting of lysosomal enzymes. M6P dependent binding of lysosomal enzymes to MPR 300 was shown by confocal microscopy and coimmunoprecipitation experiments.

Reptilian MPR 300 is also the IGF-IIR: cloning, sequencing and functional characterization of the IGF-II binding domain.

The mammalian cation-independent mannose 6-phosphate/insulin-like growth factor (IGF)-II receptor binds IGF-II with high affinity. Ligands transported by the MPR 300/IGF-IIR include IGF-II and mannose 6-phosphate-modified proteins. By targeting IGF-II to lysosomal degradation, it plays a key role in the maintenance of correct IGF-II levels in the circulation and in target tissues. Although, from our studies we found homologous receptor in calotes but its functional significance was not known. We present here the first report on the calotes MPR 300/IGF-IIR binds IGF-II with K(d) of 12.02 nM; these findings provide new and strong evidence that MPR 300/IGF-IIR in Calotes versicolor binds IGFII with high affinity.

Biochemical and functional characterization of cation dependent (Mr 46,000) goat mannose 6-phosphate receptor.

The Mannose 6-phosphate receptor (MPR's) proteins are important for transporting lysosomal enzymes from trans-golgi to the pre-lysosomal compartment. These are conserved in the vertebrates from fish to mammals. We have cloned the full length cDNA for the goat MPR 46 protein and compared its sequences to the other known vertebrate MPR 46 proteins. In the present study the full-length cDNA for the goat MPR 46 protein was expressed in MPR deficient cells. The expressed protein was purified on the multivalent phosphomannan gel in the presence of divalent metal ions. The apparent molecular mass of the expressed protein was found to be approximately 46 kDa and also exhibits oligomeric nature as observed in the other species, by using an MSC1 antibody (that recognizes the MPR 46 from molluscs to mammals) as well as with a peptide specific antibody corresponding to amino acid residues (218-237) of the cytoplasmic tail of human MPR 46 protein. Furthermore the distribution of the expressed protein was visualized by immunofluorescence using MSC1 and LAMP1 antibody. Additionally in the goat MPR 46 expressing cells, the sorting function of the expressed protein to sort cathepsin D to lysosomes was studied by confocal microscopy using cathepsin D antiserum and LAMP1 antibody. The binding of goat MPR 46 to cathepsin D was shown in far Western blotting and the mannose 6-phosphate dependent binding was shown by co-immunoprecipitation.