Resolution of Cutaneous Leishmaniasis and Persistence of<i>Leishmania major</i>in the Absence of Arginase 1

Paduch, Katrin; Debus, Andrea; Rai, Baplu; Schleicher, Ulrike; Bogdan, Christian

doi:10.4049/jimmunol.1801249

Cited by 26 publications

(29 citation statements)

References 90 publications

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“…For example, during murine Toxoplasma gondii infection, ARG-1 in macrophages thwarted effective immunity, impaired parasite control, and elimination of ARG-1 favored host survival [24]. On the contrary, in infections with the Trichuris muris or Leishmania major, mice lacking ARG-1 or ARG-2 showed unaltered cytokine responses, parasite burden and NO production [11,25]. Here, our data showed elevated expression (protein and mRNA levels) and activity of ARG-1 in peritoneal cells from mice with E. granulosus infection.…”

Section: Discussionmentioning

confidence: 99%

“…In addition to these immunoregulatory effects, ARG-1 expressed by myeloid cells has been involved in promoting tissue repair and wound healing because the l-ornithine is a precursor of proline and polyamines [9,10]. However, in cutaneous leishmaniasis and some tumor models with high arginine-succinate synthetase (ASS1) activity which could produce l-arginine from citrulline, arginase seems to be dispensable for the long-term persistence to pathogens [11,12]. Here, we asked whether arginase was produced and whether its immunosuppression effect was present in Echinococcus granulosus-infected mice, although other immune evasion mechanisms have been found in previous studies [13,14].…”

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confidence: 99%

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Arginase promotes immune evasion of Echinococcus granulosus in mice

et al. 2020

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Background: Cystic echinococcosis is a chronic disease caused by infection with the larvae of Echinococcus granulosus. The parasite's ability to establish persistent infection is partly due to its evolving immune evasion strategies. One strategy may involve the protective effect of arginase, which impedes the control of pathogens or tumors, whereas it remains largely unknown during E. granulosus infection. Here, we analyzed whether arginase was produced in peritoneal cells and assessed its role in immunosuppression in mice infected with protoscoleces of E. granulosus. Methods: BALB/c mice injected with protoscoleces of E. granulosus were used to evaluate the expression of arginase (ARG) in mRNA and protein levels. The profiles of ARG-1 expression in peritoneal cells and CD3ζ expression in T cells from spleens were assessed at different time points (3, 6, 9 and 12 months post-infection) by flow cytometry. In vitro, peritoneal cells were co-cultured with purified T cells in a transwell system, and the levels of CD3ζ re-expression were compared by flow cytometry. Meanwhile, the changes of l-arginine and its related metabolites in serum were tested. Results: Compared to the control group, the peritoneal cells from infected mice showed higher levels of ARG-1 mRNA and protein, unchanged ARG-2 and iNOS. Enhanced ARG-1 expression was present in SSC low

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

Arginase promotes immune evasion of Echinococcus granulosus in mice

et al. 2020

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“…The level of ARG activity was determined by measuring urea, the enzymatic product, after metabolization of arginine. Since, the highest level of ARG was previously reported in the infected site, 17,20…”

Section: Reduction Of Arg Activity After Treatment With Nor-nohamentioning

confidence: 99%

The outcome of arginase activity inhibition in BALB/c mice hosting Leishmania tropica

Nahidi

Gholami

Taslimi

et al. 2020

Parasite Immunology

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Two species of Leishmania (L), L. tropica and L. major, are among the main causative agents of cutaneous leishmaniasis. Arginase (ARG) is an essential enzyme for cell growth, thus an attractive drug target. In this study, we tried to survey the inhibitory impact of ARG by nor‐NOHA (N‐ω‐hydroxy‐L‐nor‐arginine) on in vivo infection caused by L. tropica. BALB/c mice were inoculated with L. tropicaEGFP‐LUC (Ltrop) or L. majorEGFP‐LUC (Lmj) and then were treated by nor‐NOHA. ARG inhibitor only indicated a delay in generation of a cutaneous lesion in inoculated footpad with nor‐NOHA‐Ltrop and nor‐NOHA‐Lmj. ARG activity has been significantly reduced in nor‐NOHA‐Ltrop group. In this group, ARG activity inhibition correlated with increased levels of nitric oxide (NO). In both inoculated mice with Ltrop or Lmj, parasite load showed a significant decrease at later steps during the CL course post‐treatment. In vivo bioluminescence intensity did not show any ARG's inhibitory effect on treated‐Ltrop. The findings verified that the ARG activity may partially control the L. tropica infection in BALB/c mice through reduction of parasite proliferation and parasite killing through NO generation. This effect is dose‐dependent.

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“…The upregulation of myeloid Arg1 may also deplete arginine levels in tissues and inhibit proliferation of hostprotective T cells and other immune cell functions. 44 Many studies have investigated whether enhanced expression of Arg1 in Leishmania-infected M2-polarized macrophages promotes parasite growth beyond antagonizing NO production. In support of such a role, parasites preferentially populate Arg1 + monocytes and macrophages in lesions, and Arg1 expression correlates with increased lesion development in susceptible BALB/c mice.…”

Section: Host Arginine Metabolismmentioning

confidence: 99%

Immunometabolism of Leishmania granulomas

Saunders

McConville

2020

Immunol Cell Biol

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Leishmania are parasitic protists that cause a spectrum of diseases in humans characterized by the formation of granulomatous lesions in the skin or other tissues, such as liver and spleen. The extent to which Leishmania granulomas constrain or promote parasite growth is critically dependent on the host Thelper type 1/T-helper type 2 immune response and the localized functional polarization of infected and noninfected macrophages toward a classically (M1) or alternatively (M2) activated phenotype. Recent studies have shown that metabolic reprograming of M1 and M2 macrophages underpins the capacity of these cells to act as permissive or nonpermissive host reservoirs, respectively. In this review, we highlight the metabolic requirements of Leishmania amastigotes and the evidence that these parasites induce and/or exploit metabolic reprogramming of macrophage metabolism. We also focus on recent studies highlighting the role of key macrophage metabolic signaling pathways, such as mechanistic target of rapamycin, adenosine monophosphate-activated protein kinase and peroxisome proliferator receptor gamma in regulating the pathological progression of Leishmania granulomas. These studies highlight the intimate connectivity between Leishmania and host cell metabolism, the need to investigate these interactions in vivo and the potential to exploit host cell metabolic signaling pathways in developing new host-directed therapies.

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Resolution of Cutaneous Leishmaniasis and Persistence ofLeishmania majorin the Absence of Arginase 1

Cited by 26 publications

References 90 publications

Arginase promotes immune evasion of Echinococcus granulosus in mice

Arginase promotes immune evasion of Echinococcus granulosus in mice

The outcome of arginase activity inhibition in BALB/c mice hosting Leishmania tropica

Immunometabolism of Leishmania granulomas

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