Adil Muneer scite author profile

Mass spectrometry-based quantitative proteomics is a powerful tool for gaining insights into function and dynamics of biological systems. However, peptides with different sequences have different ionization efficiencies, and their intensities in a mass spectrum are not correlated with their abundances. Therefore, various label-free or stable isotope label-based quantitation methods have emerged to assist mass spectrometry to perform comparative proteomic experiments, thus enabling nonbiased identification of thousands of proteins differentially expressed in healthy versus diseased cells. Here, we discuss the most widely used label-free and metabolic-, enzymatic-, and chemical labeling-based proteomic strategies for relative and absolute quantitation. We summarize the specific strengths and weaknesses of each technique in terms of quantification accuracy, proteome coverage, multiplexing capability, and robustness. Applications of each strategy for solving specific biological complexities are also presented.

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Novel gene-specific translation mechanism of dysregulated, chronic inflammation reveals promising, multifaceted COVID-19 therapeutics

Wang

Muneer

Xie

et al. 2020

Preprint

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Hyperinflammation and lymphopenia provoked by SARS-CoV-2-activated macrophages contribute to the high mortality of Coronavirus Disease 2019 (COVID-19) patients. Thus, defining host pathways aberrantly activated in patient macrophages is critical for developing effective therapeutics. We discovered that G9a, a histone methyltransferase that is overexpressed in COVID-19 patients with high viral load, activates translation of specific genes that induce hyperinflammation and impairment of T cell function or lymphopenia. This noncanonical, pro-translation activity of G9a contrasts with its canonical epigenetic function. In endotoxin-tolerant (ET) macrophages that mimic conditions which render patients with pre-existing chronic inflammatory diseases vulnerable to severe symptoms, our chemoproteomic approach with a biotinylated inhibitor of G9a identified multiple G9a-associated translation regulatory pathways that were upregulated by SARS-CoV-2 infection. Further, quantitative translatome analysis of ET macrophages treated progressively with the G9a inhibitor profiled G9a-translated proteins that unite the networks associated with viral replication and the SARS-CoV-2-induced host response in severe patients. Accordingly, inhibition of G9a-associated pathways produced multifaceted, systematic effects, namely, restoration of T cell function, mitigation of hyperinflammation, and suppression of viral replication. Importantly, as a host-directed mechanism, this G9a-targeted, combined therapeutics is refractory to emerging antiviral-resistant mutants of SARS-CoV-2, or any virus, that hijacks host responses.

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Targeting Myeloma Stem Cells with T Cells Armed with Anti-CD3 X Anti-CD20 Bispecific Antibody (CD20BI) Prior to ASCT Leads to Development of Anti-Myeloma Immune Responses Post Autologous Stem Cell Transplant That Can Be Boosted with Targeted T Cells

Lawrence

Archana

Muneer

et al. 2012

Biology of Blood and Marrow Transplantation

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Functional Multi-Omics Reveals Noncanonical Function of G9a in Translational Regulation of Chronic Inflammation

Wang¹,

Muneer²,

Xie³

et al. 2021

SSRN Journal

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Adil Muneer

Relative and Absolute Quantitation in Mass Spectrometry–Based Proteomics

Novel gene-specific translation mechanism of dysregulated, chronic inflammation reveals promising, multifaceted COVID-19 therapeutics

Targeting Myeloma Stem Cells with T Cells Armed with Anti-CD3 X Anti-CD20 Bispecific Antibody (CD20BI) Prior to ASCT Leads to Development of Anti-Myeloma Immune Responses Post Autologous Stem Cell Transplant That Can Be Boosted with Targeted T Cells

Functional Multi-Omics Reveals Noncanonical Function of G9a in Translational Regulation of Chronic Inflammation

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