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    An Insight Into Systemic Immune Response in Leishmania donovani Mediated Atypical Cutaneous Leishmaniasis in the New Endemic State of Himachal Pradesh, India
    (Frontiers Media S.A., 2022-01-04T00:00:00) Thakur, Lovlesh; Madaan, Priyanka; Jain, Aklank; Shankar, Vinay; Negi, Ajeet; Chauhan, Shashi Bhushan; Sundar, Shyam; Singh, Om Prakash; Jain, Manju
    Leishmaniasis continues to afflict known and newer endemic sites despite global efforts towards its control and elimination. In this regard, the emergence of newer endemic sites with unusual disease formats is recognized wherein Leishmania donovani complex classically known to cause visceral disease is demonstrated to cause cutaneous manifestation. In this context, atypical cutaneous leishmaniasis (CL) cases caused by L. donovani genetic variants from the newer endemic state of Himachal Pradesh (HP) in India are beginning to be understood in terms of parasite determinants. The atypical CL manifestation further needs to be explored to define host immune correlates with a possible role in driving the unusual disease progression. In the given study, we performed comprehensive systemic-immune profiling of the atypical CL patients from the study area in HP, India, in comparison with the classical visceral leishmaniasis (VL) patients from the northeast region of India. The systemic immune response was studied using ELISA-based assessment of Th1, Th2, Th17, Treg, and Th22 specific plasma cytokine expression pattern and parasite-specific total serum IgG/IgG subclasses. The specified immune correlates are known to exhibit heterogeneous association with the different infecting parasite species, infection load, and co-lateral host immunopathology in classical CL and VL. In the atypical CL patient group, altered expression of IL-10 emerged as the key finding that could potentially fine-tune the Th1/Th17/Th22 effector cytokine axis towards a localized cutaneous manifestation. A reduced expression of IL-10 along with a high IFN-?/IL-10 ratio as a readout of effective parasite killing defined atypical cutaneous outcome. In contrast, high circulatory IL-10 levels and a depressed IFN-?/IL-10 ratio were seen in classical VL patients in line with an ineffective parasite-killing cytokine response. Overall,�the study highlights new knowledge on host immune correlates in terms of cytokine expression pattern and IgG subclasses that underline atypical disease manifestation such that L. donovani, a generally visceralizing parasite species cause skin localized cutaneous lesions. Copyright � 2022 Thakur, Madaan, Jain, Shankar, Negi, Chauhan, Sundar, Singh and Jain.
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    Interferon inducible guanylate binding protein 1 restricts the growth of Leishmania donovani by modulating the level of cytokines/chemokines and MAP kinases
    (Academic Press, 2022-05-09T00:00:00) Kumar, Ravindra; Kushawaha, Pramod Kumar
    Visceral Leishmaniasis (VL) is a zoonotic chronic endemic infectious disease caused by Leishmania donovani infection and a well-studied model for intracellular parasitism. Guanylate binding proteins (GBPs) are induced by interferons (IFNs), and play a crucial role in cell autonomous immunity and the regulation of inflammation. Guanylate-binding protein 1 (GBP1) has been shown vital for the host immune response against various pathogens. However, the role of GBP1 during VL is undefined. In the present study, we have investigated the role of GBP1 in Leishmania donovani infection using in vitro model. For that, knock down of the Gbp1 gene was carried out in both PMA differentiated human monocyte cell line THP-1 and mouse macrophages RAW264.7 cell line using siRNA based RNA interference. Infection of these cell lines revealed a high parasite load in knock down cells at 24 and 48h post infection as compared to control cells. A significant increase was observed in the level of different cytokines (IL-4, IL-10, IL-12b, IFN-?, TNF-?) and chemokines (CXCL9, CXCL 10, and CXCL 11) in GBP1 knock down cell lines after post-infection. In GBP1 knock down cells the expression level of IFN effector molecules (iNOS and PKR) was found to be elevated in THP1 cells and remained almost unchanged in RAW264.7 cells after Leishmania donovani infection as compared to the control cells. Moreover, interestingly, the level of MAPK activated ERK1/2, and p38 MAPK were considerably induced by the parasite in knock down cells as compared to control after 24 h post-infection. This study, first time reported the involvement of GBP1 in Leishmania donovani infection by modulating the level of important cytokines, chemokines, IFN effector molecules, and MAP kinases. � 2022 Elsevier Ltd
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    Leishmania donovani secretory protein nucleoside diphosphate kinase b localizes in its nucleus and prevents ATP mediated cytolysis of macrophages
    (Academic Press, 2022-02-25T00:00:00) Kushawaha, Pramod K.; Pati Tripathi, Chandra Dev; Dube, Anuradha
    Leishmania donovani pathogenicity is closely linked to its ability to live and replicate in the hostile environment of macrophages. All protozoan parasites, including Leishmania, are unable to synthesize purines de novo, and nucleoside diphosphate kinases (NDKs) are enzymes required to preserve the intracellular nucleoside phosphate equilibrium. For some pathogens, secretion of ATP-utilizing enzymes into the extracellular environment aids in pathogen survival via P2Z receptor mediated, ATP-induced death of infected macrophages. Here, Leishmanaia donovani nucleoside diphosphate kinase (LdNDKb) was cloned, expressed and purified by Ni2+-NTA affinity chromatography to elucidate its biological significance. The presence of secreted form of LdNDKb in the medium was confirmed by Western blot analysis. Interestingly, cellular localization by confocal microscopy showed that this protein was localized in the nucleus, inner leaflet of membrane and on the flagella of this parasite which indicates its multiple role in the life cycle of Leishmania donovani. Its possibility to bind with DNA was confirmed by gel retardation assay and electrophoretic mobility shift assay (EMSA) which show the binding with linear and supercoiled is not sequence specific. Further, treatment of J774 macrophages with recombinant LdNdKb and periodate oxidized ATP - a P2X7 receptor antagonist, inhibited ATP-induced cytolysis in vitro, as determined by lactate dehydrogenise release from J774 macrophages. Thus, LdNDKb prevents ATP-mediated host-cell plasma membrane permeabilization by hydrolyzing extracellular ATP, thereby, preserving the integrity of the host cells for the benefit of the parasite. This study indicates that LdNDKb could be explored for its potentiality as a drug/vaccine target against visceral leishmaniasis. � 2022
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    Leishmania donovani secretory protein nucleoside diphosphate kinase b localizes in its nucleus and prevents ATP mediated cytolysis of macrophages
    (Academic Press, 2022-02-25T00:00:00) Kushawaha, Pramod K.; Pati Tripathi, Chandra Dev; Dube, Anuradha
    Leishmania donovani pathogenicity is closely linked to its ability to live and replicate in the hostile environment of macrophages. All protozoan parasites, including Leishmania, are unable to synthesize purines de novo, and nucleoside diphosphate kinases (NDKs) are enzymes required to preserve the intracellular nucleoside phosphate equilibrium. For some pathogens, secretion of ATP-utilizing enzymes into the extracellular environment aids in pathogen survival via P2Z receptor mediated, ATP-induced death of infected macrophages. Here, Leishmanaia donovani nucleoside diphosphate kinase (LdNDKb) was cloned, expressed and purified by Ni2+-NTA affinity chromatography to elucidate its biological significance. The presence of secreted form of LdNDKb in the medium was confirmed by Western blot analysis. Interestingly, cellular localization by confocal microscopy showed that this protein was localized in the nucleus, inner leaflet of membrane and on the flagella of this parasite which indicates its multiple role in the life cycle of Leishmania donovani. Its possibility to bind with DNA was confirmed by gel retardation assay and electrophoretic mobility shift assay (EMSA) which show the binding with linear and supercoiled is not sequence specific. Further, treatment of J774 macrophages with recombinant LdNdKb and periodate oxidized ATP - a P2X7 receptor antagonist, inhibited ATP-induced cytolysis in vitro, as determined by lactate dehydrogenise release from J774 macrophages. Thus, LdNDKb prevents ATP-mediated host-cell plasma membrane permeabilization by hydrolyzing extracellular ATP, thereby, preserving the integrity of the host cells for the benefit of the parasite. This study indicates that LdNDKb could be explored for its potentiality as a drug/vaccine target against visceral leishmaniasis. � 2022
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    Interferon inducible guanylate binding protein 1 restricts the growth of Leishmania donovani by modulating the level of cytokines/chemokines and MAP kinases
    (Academic Press, 2022-05-09T00:00:00) Kumar, Ravindra; Kushawaha, Pramod Kumar
    Visceral Leishmaniasis (VL) is a zoonotic chronic endemic infectious disease caused by Leishmania donovani infection and a well-studied model for intracellular parasitism. Guanylate binding proteins (GBPs) are induced by interferons (IFNs), and play a crucial role in cell autonomous immunity and the regulation of inflammation. Guanylate-binding protein 1 (GBP1) has been shown vital for the host immune response against various pathogens. However, the role of GBP1 during VL is undefined. In the present study, we have investigated the role of GBP1 in Leishmania donovani infection using in vitro model. For that, knock down of the Gbp1 gene was carried out in both PMA differentiated human monocyte cell line THP-1 and mouse macrophages RAW264.7 cell line using siRNA based RNA interference. Infection of these cell lines revealed a high parasite load in knock down cells at 24 and 48h post infection as compared to control cells. A significant increase was observed in the level of different cytokines (IL-4, IL-10, IL-12b, IFN-?, TNF-?) and chemokines (CXCL9, CXCL 10, and CXCL 11) in GBP1 knock down cell lines after post-infection. In GBP1 knock down cells the expression level of IFN effector molecules (iNOS and PKR) was found to be elevated in THP1 cells and remained almost unchanged in RAW264.7 cells after Leishmania donovani infection as compared to the control cells. Moreover, interestingly, the level of MAPK activated ERK1/2, and p38 MAPK were considerably induced by the parasite in knock down cells as compared to control after 24 h post-infection. This study, first time reported the involvement of GBP1 in Leishmania donovani infection by modulating the level of important cytokines, chemokines, IFN effector molecules, and MAP kinases. � 2022 Elsevier Ltd
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    Leishmania donovani persistence and circulation causing cutaneous leishmaniasis in unusual-foci of Nepal
    (Nature Research, 2023-07-29T00:00:00) Rai, Tinmaya; Shrestha, Srijan; Prajapati, Sabita; Bastola, Anup; Parajuli, Niraj; Ghimire, Pragya Gautam; Bhandari, Parmananda; Pandey, Kishor; Jain, Manju; Matlashewski, Greg; Bras-Goncalves, Rachel; Manandhar, Krishna Das
    Cutaneous leishmaniasis cases have increased dramatically in recent years in Nepal. The study offers molecular identification of the Leishmania species using 40 patient�s aspiration biopsy samples, targeting markers kinetoplast minicircle DNA (kDNA) and internal transcribed spacer-1 (ITS1). Among molecularly diagnosed 22 cutaneous leishmaniasis cases, L. donovani complex was identified in 13 instances and L. major in 9 cases. The ITS1 PCR was positive in 12 of the positive nested- kDNA PCR cases (12/22), confirming L. donovani complex in seven of the cases and L. major in five of the cases. In addition, the study conclude that concurrent occurrence of atypical cutaneous infections caused by L. donovani parasite in 59.1% of cases and typical cutaneous infections caused by L. major parasite in 40.9% of cases. A Phylogentic analaysis showed that the detected L. donovani species present null genetic distances from seven references of L. donovani, but slight differences between ITS1 sequences and not grouped into a significant monophyletic cluster. � 2023, The Author(s).