Saad Khan scite author profile

Background The Ad5-nCoV vaccine is a single-dose adenovirus type 5 (Ad5) vectored vaccine expressing the SARS-CoV-2 spike protein that was well-tolerated and immunogenic in phase 1 and 2 studies. In this study, we report results on the final efficacy and interim safety analyses of the phase 3 trial. Methods This double-blind, randomised, international, placebo-controlled, endpoint-case driven, phase 3, clinical trial enrolled adults aged 18 years older at study centres in Argentina, Chile, Mexico, Pakistan, and Russia. Participants were eligible for the study if they had no unstable or severe underlying medical or psychiatric conditions; had no history of a laboratory-confirmed SARS-CoV-2 infection; were not pregnant or breastfeeding; and had no previous receipt of an adenovirus-vectored, coronavirus, or SARS-CoV-2 vaccine. After informed consent was obtained, 25 mL of whole blood was withdrawn from all eligible participants who were randomised in a 1:1 ratio to receive a single intramuscular dose of 0·5 mL placebo or a 0·5 mL dose of 5 × 10 10 viral particle (vp)/mL Ad5-nCoV vaccine; study staff and participants were blinded to treatment allocation. All participants were contacted weekly by email, telephone, or text message to self-report any symptoms of COVID-19 illness, and laboratory testing for SARS-CoV-2 was done for all participants with any symptoms. The primary efficacy objective evaluated Ad5-nCoV in preventing symptomatic, PCR-confirmed COVID-19 infection occurring at least 28 days after vaccination in all participants who were at least 28 days postvaccination on Jan 15, 2021. The primary safety objective evaluated the incidence of any serious adverse events or medically attended adverse events postvaccination in all participants who received a study injection. This trial is closed for enrolment and is registered with ClinicalTrials.gov ( NCT04526990 ). Findings Study enrolment began on Sept 22, 2020, in Pakistan, Nov 6, 2020, in Mexico, Dec 2, 2020, in Russia and Chile, and Dec 17, 2020, in Argentina; 150 endpoint cases were reached on Jan 15, 2021, triggering the final primary efficacy analysis. One dose of Ad5-nCoV showed a 57·5% (95% CI 39·7–70·0, p=0·0026) efficacy against symptomatic, PCR-confirmed, COVID-19 infection at 28 days or more postvaccination (21 250 participants; 45 days median duration of follow-up [IQR 36–58]). In the primary safety analysis undertaken at the time of the efficacy analysis (36 717 participants), there was no significant difference in the incidence of serious adverse events (14 [0·1%] of 18 363 Ad5-nCoV recipients and 10 [0·1%] of 18 354 placebo recipients, p=0·54) or medically attended adverse events (442 [2·4%] of 18 363 Ad5-nCoV recipients and 411 [2·2%] of 18 354 placebo recipients, p=0·30) between the Ad5-nCoV or placebo groups, or any serious adverse events considered related to the study product (none in bo...

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Killers 2.0: NK cell therapies at the forefront of cancer control

Hodgins

et al. 2019

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The existence of immune cells that mediate cellular cytotoxicity without prior activation was determined by multiple groups who reported the spontaneous killing of tumor cells by lymphocytes from unimmunized mice (1-3). We now know that these cells with natural cytotoxicity, or natural killer (NK) cells, are important mediators of cancer immunosurveillance. NK cells are a heterogeneous population, and in humans they have been historically divided into IFN-γ-producing CD56 hi CD16 + and cytotoxic CD56 lo CD16 hi (4), whereas in mice they are grouped according to their expression of CD27 and CD11b (5), although it is now clear that the complexity is much higher. Distinct NK cell subsets play different roles in tumor immunity and cancer immunotherapy, as reviewed in Stabile et al. (6). NK cells are equipped with many receptors that tightly regulate their activation and allow them to discriminate between "normal" and "dangerous" cells (7). In addition to regulating NK cell activation, signals coming from activating and inhibitory receptors also tune the steady-state responsiveness of NK cells to future stimuli, in a process called NK cell education (reviewed in refs. 8, 9). Inhibitory receptors, such as killer-cell immunoglobulinlike receptors (KIRs), deliver negative signals that prevent NK cell autoreactivity. KIRs and other inhibitory receptors recognize MHC I molecules, whose absence may result in NK activation, the so-called "missing-self recognition" (10, 11). Later studies showed that lack of MHC expression was not sufficient or necessary to induce NK activation; rather, signaling from activating receptors was required. Broadly speaking, activating receptors, including NKG2D, provide activating signals upon binding to stress-induced ligands on target cells, which is referred to as "induced-self recognition" (12, 13). Ultimately, NK activation depends on the balance between activating and inhibitory signals triggered by these receptors binding their ligands. When activating signals prevail, NK cells respond, whereas when inhibitory signaling is stronger, NK cells do not respond. Healthy cells, with some exceptions (14-16), express low levels of activating ligands and an abundance of inhibitory ligands and therefore are not attacked by NK cells. On the other hand, tumor cells often acquire expression of NK cellactivating ligands and/or lose expression of MHC molecules. NK cells sense and respond to changes in the repertoire of molecules expressed on the surface of healthy cells during cellular transformation. This positions NK cells as important sentinels against cancer and as prime targets for cancer immunotherapy (17).

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Lung Tumor Cell-Derived Exosomes Promote M2 Macrophage Polarization

Pritchard

Tousif

Wang

et al. 2020

Cells

143

103

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Cellular cross-talk within the tumor microenvironment (TME) by exosomes is known to promote tumor progression. Tumor promoting macrophages with an M2 phenotype are suppressors of anti-tumor immunity. However, the impact of tumor-derived exosomes in modulating macrophage polarization in the lung TME is largely unknown. Herein, we investigated if lung tumor-derived exosomes alter transcriptional and bioenergetic signatures of M0 macrophages and polarize them to an M2 phenotype. The concentration of exosomes produced by p53 null H358 lung tumor cells was significantly reduced compared to A549 (p53 wild-type) lung tumor cells, consistent with p53-mediated regulation of exosome production. In co-culture studies, M0 macrophages internalized tumor-derived exosomes, and differentiated into M2 phenotype. Importantly, we demonstrate that tumor-derived exosomes enhance the oxygen consumption rate of macrophages, altering their bioenergetic state consistent with that of M2 macrophages. In vitro co-cultures of M0 macrophages with H358 exosomes demonstrated that exosome-induced M2 polarization may be p53 independent. Murine bone marrow cells and bone marrow-derived myeloid-derived suppressor cells (MDSCs) co-cultured with lewis lung carcinoma (LLC)-derived exosomes differentiated to M2 macrophages. Collectively, these studies provide evidence for a novel role for lung tumor-exosomes in M2 macrophage polarization, which then offers new therapeutic targets for immunotherapy of lung cancer.

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Saad Khan

Association Between Physical Activity and Risk of Depression

Final efficacy analysis, interim safety analysis, and immunogenicity of a single dose of recombinant novel coronavirus vaccine (adenovirus type 5 vector) in adults 18 years and older: an international, multicentre, randomised, double-blinded, placebo-controlled phase 3 trial

Killers 2.0: NK cell therapies at the forefront of cancer control

Lung Tumor Cell-Derived Exosomes Promote M2 Macrophage Polarization

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