Valerio Rasi scite author profile

Valerio Rasi

5Publications

46Citation Statements Received

326Citation Statements Given

How they've been cited

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201

303

Affiliations

Saint Louis University, University of Florida

Publications

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Structural and catalytic effects of proline substitution and surface loop deletion in the extended active site of human carbonic anhydrase II

Boone

Rasi

et al. 2015

The FEBS Journal

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The bioengineering of a thermophilic enzyme starting from a mesophilic scaffold has proven to be a significant challenge as several stabilizing elements have been proposed to be the foundation of thermal stability including disulfide bridges, surface loop reduction, ionic pair networks, proline substitutions, and aromatic clusters. This study emphasizes the impact of increasing the rigidity of human carbonic anhydrase II (HCA II) via incorporation of proline residues at positions 170 and 234, which are located in surface loops that are able to accommodate restrictive main-chain conformations without rearrangement of the surrounding peptide backbone. Additionally, the effect of compactness of HCA II was examined by way of deletion of a surface loop (residues 230 through 240), which had been previously identified as a possible source of thermal stability for the hyperthermophilic CA isolated from the bacterium Sulfurihydrogenibium yellowstonense YO3AOP1. Differential scanning calorimetry analysis of these HCA II variants revealed that these structural modifications had a minimum effect on the thermal stability of the enzyme while kinetic studies showed unexpected effects on the catalytic efficiency and proton transfer rates. X-ray crystallographic analysis of these HCA II variants showed the electrostatic potential and configuration of the highly acidic loop (residues 230 and 240) plays an important role in its high catalytic activity. Based on these observations and the literature, a picture is emerging of the various components within the general structural architecture of HCA II that are key to stability. These elements could provide the blueprints for the rational thermal stability engineering of other enzymes.

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Identification of novel neutrophil very long chain plasmalogen molecular species and their myeloperoxidase mediated oxidation products in human sepsis

et al. 2021

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Plasmalogens are a class of phospholipids containing vinyl ether linked aliphatic groups at the sn- 1 position. Plasmalogens are known to contain 16- and 18-carbon aliphatic groups at the sn- 1 position. Here, we reveal that the human neutrophil plasmenylethanolamine pool uniquely includes molecular species with very long carbon chain (VLC) aliphatic groups, including 20-, 22- and 24-carbon vinyl ether linked aliphatic groups at the sn- 1 position. We identified these novel VLC plasmalogen species by electrospray ionization mass spectrometry methods. VLC plasmalogens were only found in the neutrophil plasmenylethanolamine pool. During neutrophil activation, VLC plasmenylethanolamines undergo myeloperoxidase-dependent oxidation to produce VLC 2-chlorofatty aldehyde and its oxidation product, 2-chlorofatty acid (2-ClFA). Furthermore, plasma concentrations of VLC 2-ClFA are elevated in human sepsis. These studies demonstrate for the first time VLC plasmenylethanolamine molecular species, their myeloperoxidase-mediated chlorolipid products and the presence of these chlorolipids in human sepsis.

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Granzyme A Produced by γ9δ2 T Cells Activates ER Stress Responses and ATP Production, and Protects Against Intracellular Mycobacterial Replication Independent of Enzymatic Activity

et al. 2021

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Mycobacterium tuberculosis (Mtb), the pathological agent that causes tuberculosis (TB) is the number one infectious killer worldwide with one fourth of the world’s population currently infected. Data indicate that γ9δ2 T cells secrete Granzyme A (GzmA) in the extracellular space triggering the infected monocyte to inhibit growth of intracellular mycobacteria. Accordingly, deletion of GZMA from γ9δ2 T cells reverses their inhibitory capacity. Through mechanistic studies, GzmA’s action was investigated in monocytes from human PBMCs. The use of recombinant human GzmA expressed in a mammalian system induced inhibition of intracellular mycobacteria to the same degree as previous human native protein findings. Our data indicate that: 1) GzmA is internalized within mycobacteria-infected cells, suggesting that GzmA uptake could prevent infection and 2) that the active site is not required to inhibit intracellular replication. Global proteomic analysis demonstrated that the ER stress response and ATP producing proteins were upregulated after GzmA treatment, and these proteins abundancies were confirmed by examining their expression in an independent set of patient samples. Our data suggest that immunotherapeutic host interventions of these pathways may contribute to better control of the current TB epidemic.

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Improved Purification of Human Granzyme A/B and Granulysin Using a Mammalian Expression System

et al. 2022

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Cytotoxic lymphocytes release proteins contained within the cytoplasmic cytolytic granules after recognition of infected or tumor target cells. These cytotoxic granular proteins (namely granzymes, granulysin, and perforin) are key immunological mediators within human cellular immunity. The availability of highly purified cytotoxic proteins has been fundamental for understanding their function in immunity and mechanistic involvement in sepsis and autoimmunity. Methods for recovery of native cytotoxic proteins can be problematic leading to: 1) the co-purification of additional proteins, confounding interpretation of function, and 2) low yields of highly purified proteins. Recombinant protein expression of individual cytolytic components can overcome these challenges. The use of mammalian expression systems is preferred for optimal post-translational modifications and avoidance of endotoxin contamination. Some of these proteins have been proposed for host directed human therapies (e.g. - granzyme A), or treatment of systemic infections or tumors as in granulysin. We report here a novel expression system using HEK293T cells for cost-effective purification of high yields of human granzymes (granzyme A and granzyme B) and granulysin with enhanced biological activity than previous reports. The resulting proteins are free of native contaminants, fold correctly, and remain enzymatically active. Importantly, these improvements have also led to the first purification of biologically active recombinant human granulysin in high yields from a mammalian system. This method can be used as a template for purification of many other secreted cellular proteins and may lead to advances for human medicine.

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Mechanistic Investigation of Granzyme A inhibitory effects on intracellular Mycobacterium tuberculosis

Rasi

Eickhoff

Wood

et al. 2022

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One fourth of the world population is infected with Tuberculosis (TB). Our lab has identified γ9δ2 T cells that secrete Granzyme A (GzmA) with TB protective effects. In this study, we investigated the mechanism(s) by which human GzmA inhibits the intracellular replication of mycobacteria within infected human primary monocytes. GzmA was added to mycobacteria-infected monocytes for downstream analyses using 2D-DIGE and shotgun proteomics. We generated WT, enzymatically inactive (S195A), and monomeric only (C93S) recombinant GzmA and performed: flow cytometry studies using viable mycobacteria; intracellular inhibition assays neutralizing CD14, TLR4 and TLR2; and GzmA immunoprecipitation experiments. The 2D-DIGE proteomic analyses found the ER-stress response and ATP metabolism pathways as important for GzmA-mediated inhibition. Separately, shotgun proteomics uncovered the upregulation of Rab11FIP1 (important for phagocytosis). Both GzmA-WT and S195A proteins inhibited intracellular mycobacteria, but C93S did not. Neutralization of CD14 and TLR4, but not TLR2, reversed GzmA-inhibitory activity. GzmA-WT, S195A, and C93S all bound mycobacteria. However, GzmA-WT and S195A, but not GzmA-C93S, stably bound to TLR4 and CD14. Collectively, these studies demonstrate key structural, functional, and inter-/intra-molecular features required for GzmA-mediated inhibition of intracellular mycobacteria including interactions between GzmA, mycobacteria, TLR4 and CD14. These interactions result in the ER stress response, altered ATP metabolism, enhanced phagocytosis, and inhibition of mycobacteria. Thus, GzmA’s potential role as opsonin could lead to novel host-directed therapeutics for TB infections. Supported by grants from NIH (F30HL151136-01, R01AI048391-12)

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Valerio Rasi

Structural and catalytic effects of proline substitution and surface loop deletion in the extended active site of human carbonic anhydrase II

Identification of novel neutrophil very long chain plasmalogen molecular species and their myeloperoxidase mediated oxidation products in human sepsis

Granzyme A Produced by γ9δ2 T Cells Activates ER Stress Responses and ATP Production, and Protects Against Intracellular Mycobacterial Replication Independent of Enzymatic Activity

Improved Purification of Human Granzyme A/B and Granulysin Using a Mammalian Expression System

Mechanistic Investigation of Granzyme A inhibitory effects on intracellular Mycobacterium tuberculosis

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