Inderjeet Kalia scite author profile

Recent studies have documented the diverse role of host immunity in infection by the protozoan parasite, Toxoplasma gondii. However, the contribution of the β-catenin pathway in this process has not been explored. Here, we show that AKT-mediated phosphorylated β-catenin supports T. gondii multiplication which is arrested in the deficiency of its phosphorylation domain at S552 position. The β-catenin-TCF4 protein complex binds to the promoter region of IRF3 gene and initiates its transcription, which was also abrogated in β-catenin knockout cells. TBK-independent phosphorylation of STING(S366) and its adaptor molecule TICAM2 by phospho-AKT(T308S473) augmented downstream IRF3-dependent IDO1 transcription, which was also dependent on β-catenin. But, proteasomal degradation of IDO1 by its tyrosine phosphorylation (at Y115 and Y253) favoured parasite replication. In absence of IDO1, tryptophan was catabolized into melatonin, which supressed cellular reactive oxygen species (ROS) and boosted parasite growth. Conversely, when tyrosine phosphorylation was abolished by phosphosite mutations, IDO1 escaped its ubiquitin-mediated proteasomal degradation system (UPS) and the stable IDO1 prevented parasite replication by kynurenine synthesis. We propose that T. gondii selectively utilizes tryptophan to produce the antioxidant, melatonin, thus prolonging the survival of infected cells through functional AKT and β-catenin activity for better parasite replication. Stable IDO1 in the presence of IFN-γ catabolized tryptophan into kynurenine, promoting cell death by suppressing phospho-AKT and phospho-β-catenin levels, and circumvented parasite replication. Treatment of infected cells with kynurenine or its analogue, teriflunomide suppressed kinase activity of AKT, and phosphorylation of β-catenin triggering caspase-3 dependent apoptosis of infected cells to inhibit parasite growth. Our results demonstrate that β-catenin regulate phosphorylated STING-TICAM2-IRF3-IDO1 signalosome for a cell-intrinsic pro-parasitic role. We propose that the downstream IRF3-IDO1-reliant tryptophan catabolites and their analogues can act as effective immunotherapeutic molecules to control T. gondii replication by impairing the AKT and β-catenin axis.

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Plasmodium Perforin-Like Protein Pores on the Host Cell Membrane Contribute in Its Multistage Growth and Erythrocyte Senescence

Garg

Shivappagowdar

Hada

et al. 2020

Front. Cell. Infect. Microbiol.

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The pore forming Plasmodium Perforin Like Proteins (PPLP), expressed in all stages of the parasite life cycle are critical for completion of the parasite life cycle. The high sequence similarity in the central Membrane Attack Complex/ Perforin (MACPF) domain among PLPs and their distinct functional overlaps define them as lucrative target for developing multi-stage antimalarial therapeutics. Herein, we evaluated the mechanism of Pan-active MACPF Domain (PMD), a centrally located and highly conserved region of PPLPs, and deciphered the inhibitory potential of specifically designed PMD inhibitors. The E. coli expressed rPMD interacts with erythrocyte membrane and form pores of ∼10.5 nm height and ∼24.3 nm diameter leading to hemoglobin release and dextran uptake. The treatment with PMD induced erythrocytes senescence which can be hypothesized to account for the physiological effect of disseminated PLPs in loss of circulating erythrocytes inducing malaria anemia. The anti-PMD inhibitors effectively blocked intraerythrocytic growth by suppressing invasion and egress processes and protected erythrocytes against rPMD induced senescence. Moreover, these inhibitors also blocked the hepatic stage and transmission stage parasite development suggesting multi-stage, transmission-blocking potential of these inhibitors. Concievably, our study has introduced a novel set of anti-PMD inhibitors with pan-inhibitory activity against all the PPLPs members which can be developed into potent cross-stage antimalarial therapeutics along with erythrocyte senescence protective potential to occlude PPLPs mediated anemia in severe malaria.

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Dissecting The role of Plasmodium metacaspase-2 in malaria gametogenesis and sporogony

Kumari

Prasad

Kalia

et al. 2022

Emerging Microbes & Infections

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Identification and characterization of protective CD8⁺ T‐epitopes in a malaria vaccine candidate SLTRiP

Quadiri

Kalia

Kashif

et al. 2020

Immunity Inflam & Disease

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Introduction Efforts are required at developing an effective vaccine that can inhibit malaria prevalence and transmission. Identifying the critical immunogenic antigens and understanding their interactions with host proteins forms a major focus of subunit vaccine development. Previously, our laboratory showed that SLTRiP conferred protection to the liver stage of Plasmodium growth in rodents. In the follow‐up of earlier research, we demonstrate that SLTRiP‐mediated protection is majorly concentrated in specific regions of protein. Method To identify particular protective regions of protein, we synthesized multiple nonoverlapping fragments from SLTRiP protein. From this, we designed a panel of 8‐20mer synthetic peptides, which were predicted using T‐epitope‐based prediction algorithm. We utilized the IFN‐γ enzyme‐linked immunosorbent spot assay to identify immunodominant peptides. The latter were used to immunize mice, and these mice were challenged to assess protection. Results The protective polypeptide fragment SLTRiP C3 and SLTRiP C4 were identified, by expressing and testing multiple fragments of PbSLTRiP protein. The immune responses generated by these fragments were compared to identify the immunodominant fragment. The T‐epitopes were predicted from SLTRiP protein using computer‐based algorithms. The in vitro immune responses generated by these peptides were compared with each other to identify the immunodominant T‐epitope. Immunization using these peptides showed significant reduction in parasite numbers during liver stage. Conclusion Our findings show that the protective efficacy shown by SLTRiP is localized in particular protein fragments. The peptides designed from such regions showed protective efficacy equivalent to whole protein. The sequence conservation analysis with human Plasmodium species also showed that these peptides were conserved. In conclusion, these peptides or their equivalent from other Plasmodium species could impart protection against malaria in their respective hosts too. Our studies provide a basis for the inclusion of these peptides in clinical vaccine constructs against malaria.

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Molecular characterization and expression profile of an alternate proliferating cell nuclear antigen homolog PbPCNA2 in Plasmodium berghei

et al. 2019

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Proliferative cell nuclear antigen (PCNA) is the processivity factor for various DNA polymerases and it functions in response to DNA damage in eukaryotic system. Plasmodium falciparum contains two PCNAs, while PCNA1 has been attributed to DNA replication, the role of PCNA2 has been assigned to DNA damage response in erythrocytic developmental stages. Although a recent transposon mediated knockout strategy qualified pcna2 as a nonessential gene in Plasmodium berghei, a conventional homologous recombination‐based knockout strategy has not been employed for this gene yet. Moreover, the cellular dynamics of PCNA2 in extraerythrocytic stages still remain elusive in Plasmodium. We attempted multiple times to knock out PbPCNA2 from the parasite genome using homologous recombination strategy without much success. However, we were able to generate PbPCNA2‐GFP tagged transgenic parasites confirming that the pcna2 locus is amenable to genetic manipulation. The GFP‐tagged parasites showed similar growth phenotype, compared to wild‐type parasites, in both erythrocytic and sporogonic cycle, suggesting that tagging had no effect on parasite physiology. PbPCNA2 expression was also observed during the sporogonic cycle in midgut oocyst and salivary gland sporozoites. The PbPCNA2 expression was upregulated in the presence of DNA damaging agents like hydroxyurea and methyl methanesulphonate. Our inability to knock out PCNA2 suggested its essentiality in the parasite development and elevated expression during DNA damaging condition hint at a critical role of the protein in parasite physiology. © 2019 IUBMB Life, 71(9):1293–1301, 2019

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Inderjeet Kalia

Tryptophan-kynurenine pathway attenuates β-catenin-dependent pro-parasitic role of STING-TICAM2-IRF3-IDO1 signalosome in Toxoplasma gondii infection

Plasmodium Perforin-Like Protein Pores on the Host Cell Membrane Contribute in Its Multistage Growth and Erythrocyte Senescence

Dissecting The role of Plasmodium metacaspase-2 in malaria gametogenesis and sporogony

Identification and characterization of protective CD8⁺ T‐epitopes in a malaria vaccine candidate SLTRiP

Molecular characterization and expression profile of an alternate proliferating cell nuclear antigen homolog PbPCNA2 in Plasmodium berghei

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Inderjeet Kalia

Tryptophan-kynurenine pathway attenuates β-catenin-dependent pro-parasitic role of STING-TICAM2-IRF3-IDO1 signalosome in Toxoplasma gondii infection

Plasmodium Perforin-Like Protein Pores on the Host Cell Membrane Contribute in Its Multistage Growth and Erythrocyte Senescence

Dissecting The role of Plasmodium metacaspase-2 in malaria gametogenesis and sporogony

Identification and characterization of protective CD8+ T‐epitopes in a malaria vaccine candidate SLTRiP

Molecular characterization and expression profile of an alternate proliferating cell nuclear antigen homolog PbPCNA2 in Plasmodium berghei

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Identification and characterization of protective CD8⁺ T‐epitopes in a malaria vaccine candidate SLTRiP