Jon J. Vermeire scite author profile

AV411 (ibudilast; 3-isobutyryl-2-isopropylpyrazolo-[1,5-a]pyridine) is an antiinflammatory drug that was initially developed for the treatment of bronchial asthma but which also has been used for cerebrovascular and ocular indications. It is a nonselective inhibitor of various phosphodiesterases (PDEs) and has varied antiinflammatory activity. More recently, AV411 has been studied as a possible therapeutic for the treatment of neuropathic pain and opioid withdrawal through its actions on glial cells. As described herein, the PDE inhibitor AV411 and its PDE-inhibition-compromised analog AV1013 inhibit the catalytic and chemotactic functions of the proinflammatory protein, macrophage migration inhibitory factor (MIF). Enzymatic analysis indicates that these compounds are noncompetitive inhibitors of the p-hydroxyphenylpyruvate (HPP) tautomerase activity of MIF and an allosteric binding site of AV411 and AV1013 is detected by NMR. The allosteric inhibition mechanism is further elucidated by X-ray crystallography based on the MIF/AV1013 binary and MIF/AV1013/HPP ternary complexes. In addition, our antibody experiments directed against MIF receptors indicate that CXCR2 is the major receptor for MIF-mediated chemotaxis of peripheral blood mononuclear cells.cross-reactivity | drug repositioning | cytokine | inflammation

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ALeishmaniaOrtholog of Macrophage Migration Inhibitory Factor Modulates Host Macrophage Responses

Kamir

Zierow

Leng

et al. 2008

114

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Parasitic organisms have evolved specialized strategies to evade immune defense mechanisms. We describe herein an ortholog of the cytokine, macrophage migration inhibitory factor (MIF), which is produced by the obligate intracellular parasite, Leishmania major. The Leishmania MIF protein, Lm1740MIF, shows significant structural homology with human MIF as revealed by a high-resolution x-ray crystal structure (1.03 Å). Differences between the two proteins in the N-terminal tautomerization site are evident, and we provide evidence for the selective, species-specific inhibition of MIF by small-molecule antagonists that target this site. Lm1740MIF shows significant binding interaction with the MIF receptor, CD74 (Kd = 2.9 × 10−8 M). Like its mammalian counterpart, Lm1740MIF induces ERK1/2 MAP kinase activation in a CD74-dependent manner and inhibits the activation-induced apoptosis of macrophages. The ability of Lm1740MIF to inhibit apoptosis may facilitate the persistence of Leishmania within the macrophage and contribute to its evasion from immune destruction.

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Structural and Functional Characterization of a Secreted Hookworm Macrophage Migration Inhibitory Factor (MIF) That Interacts with the Human MIF Receptor CD74

Cho

Jones

Vermeire

et al. 2007

Journal of Biological Chemistry

113

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Hookworms, parasitic nematodes that infect nearly one billion people worldwide, are a major cause of anemia and malnutrition. We hypothesize that hookworms actively manipulate the host immune response through the production of specific molecules designed to facilitate infection by larval stages and adult worm survival within the intestine. A full-length cDNA encoding a secreted orthologue of the human cytokine, Macrophage Migration Inhibitory Factor (MIF) has been cloned from the hookworm Ancylostoma ceylanicum. Elucidation of the three-dimensional crystal structure of recombinant AceMIF (rAceMIF) revealed an overall structural homology with significant differences in the tautomerase sites of the human and hookworm proteins. The relative bioactivities of human and hookworm MIF proteins were compared using in vitro assays of tautomerase activity, macrophage migration, and binding to MIF receptor CD74. The activity of rAceMIF was not inhibited by the ligand ISO-1, which was previously determined to be an inhibitor of the catalytic site of human MIF. These data define unique immunological, structural, and functional characteristics of AceMIF, thereby establishing the potential for selectively inhibiting the hookworm cytokine as a means of reducing parasite survival and disease pathogenesis.Hookworms are bloodfeeding intestinal nematodes that currently infect more than 700 million people in developing countries (1). The hookworm life cycle begins when eggs excreted in the feces of an infected individual hatch in soil and undergo successive molts to the infectious L 3 stage. After contacting the skin of a permissive host, larvae migrate to the pulmonary vasculature, traverse alveolar capillaries, ascend the respiratory tree and are swallowed. Hookworms molt to the adult stage in the intestine, where they attach to the mucosal surface and feed on blood and tissue. Chronic blood and serum protein loss attributable to hookworm infection is associated with anemia, malnutrition, and growth/developmental delay, resulting in the loss of tens of millions of disability adjusted life-years annually (2).There is no clear evidence of sterile immunity in humans following naturally acquired infection, suggesting that hookworms may modulate the host immune response, perhaps during tissue migration, and/or while attached to the intestinal mucosa. The fact that adult hookworms can survive within a single human host for many years (3) further suggests that these worms are capable of evading or dampening host immune responses that might kill parasites and/or trigger expulsion. Of the immunomodulatory activities that have been identified from the hookworms Ancylostoma or Necator, none has yet been shown to play a definitive role in the pathogenesis of infection or intestinal disease (4 -7).Macrophage migration inhibitory factor (MIF) 4 is a pro-inflammatory cytokine first identified as a product of activated T cells, and subsequently demonstrated to have diverse biological functions (8). Mammalian MIF inhibits the random migration of ma...

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Orthologs of macrophage migration inhibitory factor from parasitic nematodes

Vermeire

Cho

Lolis

et al. 2008

Trends in Parasitology

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Chronic helminth infections are associated with modulation of host cellular immune responses, presumably to prolong parasite survival within the mammalian host. This phenomenon is attributed, at least in part, to the elaboration of parasite molecules, including orthologs of host cytokines and receptors, at the host–parasite interface. This review describes recent progress in the characterization of macrophage migration inhibitory factor (MIF) orthologs from parasitic nematodes. The roles of these molecules in parasite developmental biology and pathogenesis are discussed. Further knowledge of the species-specific activities and three-dimensional structures of human and parasitic nematode MIF molecules should make them ideal targets for drug- and/or vaccine-based strategies aimed at nematode disease control.

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Characterisation of a fatty acid and retinol binding protein orthologue from the hookworm Ancylostoma ceylanicum

Fairfax

Vermeire

Harrison

et al. 2009

International Journal for Parasitology

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Hookworms, bloodfeeding intestinal nematodes, infect nearly one billion people in resource limited countries and are a leading cause of anemia and malnutrition. Like other nematodes, hookworms lack the capacity to synthesize essential fatty acids de novo and therefore must acquire those from exogenous sources. The cDNA corresponding to a putative Ancylostoma ceylanicum fatty acid and retinol binding protein-1 (AceFAR-1) was amplified from adult hookworm mRNA. Studies using quantitative reverse transcriptase real time-PCR demonstrate that AceFAR-1 transcripts are most abundant in the earliest developmental stages of the parasite, and greater in females than males. Using in vitro assays, the recombinant AceFAR-1 (rAceFAR-1) was shown to bind individual fatty acids with equilibrium dissociation constants in the low micromolar range. The pattern of fatty acid uptake by live adult worms cultured ex vivo was similar to the in vitro binding profile of rAceFAR-1, raising the possibility that the native protein may be involved in acquisition of fatty acids by A. ceylanicum. Animals vaccinated orally with rAceFAR-1 and the mucosal adjuvant cholera toxin exhibited a statistically significant (40-47%) reduction in intestinal worm burden compared with controls immunized with antigen or adjuvant alone. Together, these data suggest a potential role for AceFAR-1 in hookworm biology, making it a potentially valuable target for drug and vaccine development.

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Jon J. Vermeire

Allosteric inhibition of macrophage migration inhibitory factor revealed by ibudilast

ALeishmaniaOrtholog of Macrophage Migration Inhibitory Factor Modulates Host Macrophage Responses

Structural and Functional Characterization of a Secreted Hookworm Macrophage Migration Inhibitory Factor (MIF) That Interacts with the Human MIF Receptor CD74

Orthologs of macrophage migration inhibitory factor from parasitic nematodes

Characterisation of a fatty acid and retinol binding protein orthologue from the hookworm Ancylostoma ceylanicum

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