Beverly Z. Packard scite author profile

SUMMARY Virus-specific CD8+ T cells probably mediate control over HIV replication in rare individuals, termed long-term nonprogressors (LTNPs) or elite controllers. Despite extensive investigation, the mechanisms responsible for this control remain incompletely understood. We observed that HIV-specific CD8+ T cells of LTNPs persisted at higher frequencies than those of treated progressors with equally low amounts of HIV. Measured on a per-cell basis, HIV-specific CD8+ T cells of LTNPs efficiently eliminated primary autologous HIV-infected CD4+ T cells. This function required lytic granule loading of effectors and delivery of granzyme B to target cells. Defective cytotoxicity of progressor effectors could be restored after treatment with phorbol ester and calcium ionophore. These results establish an effector function and mechanism that clearly segregate with immunologic control of HIV. They also demonstrate that lytic granule contents of memory cells are a critical determinant of cytotoxicity that must be induced for maximal per-cell killing capacity.

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High‐throughput quantitative analysis of HIV‐1 and SIV‐specific ADCC‐mediating antibody responses

Pollara¹,

Hart²,

Brewer³

et al. 2011

Cytometry Pt A

193

211

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We have developed a high throughput platform to detect the presence of HIV-1 and SIV-specific ADCC-mediating antibody responses. The assay is based on the hydrolysis of a cell-permeable fluorogenic peptide substrate containing a sequence recognized by the serine protease, Granzyme B (GzB). GzB is delivered into target cells by cytotoxic effector cells as a result of antigen (Ag)-specific Ab-Fcγ receptor interactions. Within the target cells, effector cell-derived GzB hydrolyzes the substrate, generating a fluorescent signal that allows individual target cells that have received a lethal hit to be identified by flow cytometry. Results are reported as the percentage of target cells with GzB activity (%GzB). Freshly isolated or cryopreserved PBMC and/or NK cells can be used as effector cells. CEM.NKR cells expressing the CCR5 co-receptor are used as a target cells following (i) coating with recombinant envelope glycoprotein, (ii) infection with infectious molecular clones expressing the Env antigens of primary and lab adapted viruses, or (iii) chronic infection with a variant of HIV-1/IIIB, termed A1953. In addition, primary CD4+ T cells infected with HIV-1 in vitro can also be used as targets. The assay is highly reproducible with a coefficient of variation of less than 25%. Target and effector cell populations, in the absence of serum/plasma, were used to calculate background (8.6±2.3%). We determined that an initial dilution of 1:50 and 1:100 is required for testing of human and non-human primate samples, respectively. This assay allows for rapid quantification of HIV-1 or SIV-specific ADCC-mediating antibodies that develop in response to vaccination, or in the natural course of infection, thus providing researchers with a new methodology for investigating the role of ADCC-mediating antibodies as correlates of control or prevention of HIV-1 and SIV infection.

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Profluorescent protease substrates: intramolecular dimers described by the exciton model.

Packard

Toptygin

Komoriya

et al. 1996

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

131

147

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Xanthene dyes are known to form dimers with spectral characteristics that have been interpreted in terms of exciton theory. A unique aspect of H-type dimers is the fluorescence quenching that accompanies their formation. Using the principles of exciton theory as a guide, a series of protease substrates was synthesized with a xanthene dye on each side of the cleavage site. To bring the attached dyes into spatial proximity to form a dimer, the molecular design included structure determinant regions in the amino acid sequence. In addition, chromophores were chosen such that changes in absorption spectra indicative of exciton splitting were anticipated. Cleavage of the peptides by a protease resulted in disruption of the dimers and indeed significant absorption spectral changes were observed. Furthermore, substrate cleavage was accompanied by at least an order of magnitude increase in fluorescence intensity. This has allowed determination of intracellular elastase activity using a fluorescence microscope equipped with standard optics.The molecular exciton represents a delocalized electronic excitation in a system of identical molecular units (1). Based on a resonance dipole-dipole interaction mechanism, exciton theory predicts and explains the spectroscopic characteristics in systems of interacting fluorophores. Although the original definition of excitons was introduced for molecular crystals (2), the same formalism can also be applied to explain spectra of other molecular aggregates such as monomolecular lamellar systems (3) as well as dye dimers (4, 5). The latter are usually classified as either H-or J-type aggregates depending on the spatial arrangement of the fluorophores and the resulting spectral characteristics (6). Xanthene dyes are known to form H-type dimers, the characteristics of which are a blue shift in the absorption spectrum and the loss of fluorescence (7-9).If one were to design a functional molecular structure that fits the exciton model, one could have a reporter molecule with a unique self-contained analytical tool. We now report the design of a new class of profluorescent protease substrates. First, polypeptides containing amino acid sequences of naturally occurring protease inhibitors for protease recognition were synthesized; second, synthesis was followed by derivatization with a fluorophore on each side of the cleavage site. The size and geometry of the doubly labeled polypeptides are favorable for the formation of H-type dimers. Cleavage of such a polypeptide by a protease results in disruption of the H-type dimer and appearance of fluorescence.MATERIALS AND METHODS Materials. N"-9-Fluorenylmethoxycarbonyl (Fmoc) amino acids were purchased from Calbiochem-Novabiochem. 2-Chlorotrityl resin was obtained from Peptides International. The coupling reagent benzotriazol-1-yl-oxy-tris-pyrrolidinophosphonium hexafluorophosphate (PyBOP) was bought from Advanced ChemTech. Solvents such as HPLC grade dichloromethane, methanol, and acetonitrile were from Fisher Scientific. Other reagents such...

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IFITM-2 and IFITM-3 but Not IFITM-1 Restrict Rift Valley Fever Virus

Mudhasani

Tran

Retterer

et al. 2013

J Virol

113

139

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e We show that interferon-induced transmembrane protein 1 (IFITM-1), IFITM-2, and IFITM-3 exhibit a broad spectrum of antiviral activity against several members of the Bunyaviridae family, including Rift Valley fever virus (RVFV), La Crosse virus, Andes virus, and Hantaan virus, all of which can cause severe disease in humans and animals. We found that RVFV was restricted by IFITM-2 and -3 but not by IFITM-1, whereas the remaining viruses were equally restricted by all IFITMs. Indeed, at low doses of alpha interferon (IFN-␣), IFITM-2 and -3 mediated more than half of the antiviral activity of IFN-␣ against RVFV. IFITM-2 and -3 restricted RVFV infection mostly by preventing virus membrane fusion with endosomes, while they had no effect on virion attachment to cells, endocytosis, or viral replication kinetics. We found that large fractions of IFITM-2 and IFITM-3 occupy vesicular compartments that are distinct from the vesicles coated by IFITM-1. In addition, although overexpression of all IFITMs expanded vesicular and acidified compartments within cells, there were marked phenotypic differences among the vesicular compartments occupied by IFITMs. Collectively, our data provide new insights into the possible mechanisms by which the IFITM family members restrict distinct viruses.

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Visualization and quantification of T cell–mediated cytotoxicity using cell-permeable fluorogenic caspase substrates

Liu

Chahroudi

Silvestri

et al. 2002

Nat Med

149

131

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We have developed a non-radioactive flow-cytometry assay to monitor and quantify the target-cell killing activities mediated by cytotoxic T lymphocytes (CTLs). This flow-cytometry CTL (FCC) assay is predicated on measurement of CTL-induced caspase activation in target cells through detection of the specific cleavage of fluorogenic caspase substrates. Here we show that this assay reliably detects antigen-specific CTL killing of target cells, and demonstrate that it provides a more sensitive, more informative and safer alternative to the standard 51Cr-release assay most often used to quantify CTL responses. The FCC assay can be used to study CTL-mediated killing of primary host target cells of different cell lineages, and enables the study of antigen-specific cellular immune responses in real time at the single-cell level. As such, the FCC assay can provide a valuable tool for studies of infectious disease pathogenesis and development of new vaccines and immunotherapies.

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