Your search keyword '"Kolli SK"' showing total 21 results

1. Multistage protective anti-CelTOS monoclonal antibodies with cross-species sterile protection against malaria.

Author

Tang WK, Salinas ND, Kolli SK, Xu S, Urusova DV, Kumar H, Jimah JR, Subramani PA, Ogbondah MM, Barnes SJ, Adams JH, and Tolia NH

Subjects

Animals, Mice, Malaria, Falciparum immunology, Malaria, Falciparum prevention & control, Malaria, Falciparum parasitology, Crystallography, X-Ray, Epitopes immunology, Malaria, Vivax prevention & control, Malaria, Vivax immunology, Malaria, Vivax parasitology, Antigens, Protozoan immunology, Humans, Female, Epitope Mapping, Malaria immunology, Malaria prevention & control, Malaria parasitology, Mice, Inbred BALB C, Protozoan Proteins immunology, Protozoan Proteins chemistry, Antibodies, Monoclonal immunology, Plasmodium falciparum immunology, Plasmodium vivax immunology, Malaria Vaccines immunology, Antibodies, Protozoan immunology

Abstract

CelTOS is a malaria vaccine antigen that is conserved in Plasmodium and other apicomplexan parasites and plays a role in cell-traversal. The structural basis and mechanisms of CelTOS-induced protective immunity to parasites are unknown. Here, CelTOS-specific monoclonal antibodies (mAbs) 7g7 and 4h12 demonstrated multistage activity, protecting against liver infection and preventing parasite transmission to mosquitoes. Both mAbs demonstrated cross-species activity with sterile protection against in vivo challenge with transgenic parasites containing either P. falciparum or P. vivax CelTOS, and with transmission reducing activity against P. falciparum. The mAbs prevented CelTOS-mediated pore formation providing insight into the protective mechanisms. X-ray crystallography and mutant-library epitope mapping revealed two distinct broadly conserved neutralizing epitopes. 7g7 bound to a parallel dimer of CelTOS, while 4h12 bound to a novel antiparallel dimer architecture. These findings inform the design of antibody therapies and vaccines and raise the prospect of a single intervention to simultaneously combat P. falciparum and P. vivax malaria., (© 2024. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published

2024

2. Efficacy of ivermectin and its metabolites against Plasmodium falciparum liver stages in primary human hepatocytes.

Author

Annamalai Subramani P, Tipthara P, Kolli SK, Nicholas J, Barnes SJ, Ogbondah MM, Kobylinski KC, Tarning J, and Adams JH

Subjects

Humans, Cytochrome P-450 CYP3A metabolism, Antimalarials pharmacology, Liver parasitology, Liver drug effects, Malaria, Falciparum drug therapy, Malaria, Falciparum parasitology, Animals, Cells, Cultured, Anopheles parasitology, Anopheles drug effects, Ivermectin pharmacology, Hepatocytes parasitology, Hepatocytes drug effects, Plasmodium falciparum drug effects, Plasmodium falciparum growth & development

Abstract

Ivermectin, a broad-spectrum anti-parasitic drug, has been proposed as a novel vector control tool to reduce malaria transmission by mass drug administration. Ivermectin and some metabolites have mosquito-lethal effect, reducing Anopheles mosquito survival. Ivermectin inhibits liver stage development in a rodent malaria model, but no inhibition was observed in a primate malaria model or in a human malaria challenge trial. In the liver, cytochrome P450 3A4 and 3A5 enzymes metabolize ivermectin, which may impact drug efficacy. Thus, understanding ivermectin metabolism and assessing this impact on Plasmodium liver stage development is critical. Using primary human hepatocytes (PHHs), we characterized ivermectin metabolism and evaluated the efficacy of ivermectin and its primary metabolites M1 (3″- O -demethyl ivermectin) and M3 (4-hydroxymethyl ivermectin) against Plasmodium falciparum liver stages. Two different modes of ivermectin exposure were evaluated: prophylactic mode (days 0-3 post-infection) and curative mode (days 3-5 post-infection). We used two different PHH donors and modes to determine the inhibitory concentration (IC 50 ) of ivermectin, M1, M3, and the known anti-malarial drug pyrimethamine, with IC 50 values ranging from 1.391 to 14.44, 9.95-23.71, 4.767-8.384, and 0.9073-5.416 µM, respectively. In our PHH model, ivermectin and metabolites M1 and M3 demonstrated inhibitory activity against P. falciparum liver stages in curative treatment mode (days 3-5) and marginal activity in prophylactic treatment mode (days 0-3). Ivermectin had improved efficacy when co-administered with ketoconazole, a specific inhibitor of cytochrome P450 3A4 enzyme. Further studies should be performed to examine ivermectin liver stage efficacy when co-administered with CYP3A4 inhibitors and anti-malarial drugs to understand the pharmacokinetic and pharmacodynamic drug-drug interactions that enhance efficacy against human malaria parasites in vitro ., Competing Interests: The authors declare no conflict of interest.

Published

2024

3. Naturally acquired antibodies against Plasmodium vivax pre-erythrocytic stage vaccine antigens inhibit sporozoite invasion of human hepatocytes in vitro.

Author

Ntumngia FB, Kolli SK, Annamalai Subramani P, Barnes SJ, Nicholas J, Ogbondah MM, Barnes BB, Salinas ND, Thawornpan P, Tolia NH, Chootong P, and Adams JH

Subjects

Animals, Humans, Plasmodium vivax, Sporozoites metabolism, Protozoan Proteins metabolism, Antigens, Protozoan, Membrane Proteins metabolism, Erythrocytes metabolism, Hepatocytes metabolism, Antibodies, Protozoan, Plasmodium falciparum metabolism, Malaria, Vivax, Vaccines

Abstract

In Plasmodium vivax, the most studied vaccine antigens are aimed at blocking merozoite invasion of erythrocytes and disease development. Very few studies have evaluated pre-erythrocytic (PE) stage antigens. The P. vivax circumsporozoite protein (CSP), is considered the leading PE vaccine candidate, but immunity to CSP is short-lived and variant specific. Thus, there is a need to identify other potential candidates to partner with CSP in a multivalent vaccine to protect against infection and disease. We hypothesize that sporozoite antigens important for host cell infection are considered potential targets. In this study, we evaluated the magnitude and quality of naturally acquired antibody responses to four P. vivax PE antigens: sporozoite surface protein 3 (SSP3), sporozoite protein essential for traversal 1 (SPECT1), cell traversal protein of ookinetes and sporozoites (CelTOS) and CSP in plasma of P. vivax infected patients from Thailand. Naturally acquired antibodies to these antigens were prevalent in the study subjects, but with significant differences in magnitude of IgG antibody responses. About 80% of study participants had antibodies to all four antigens and only 2% did not have antibodies to any of the antigens. Most importantly, these antibodies inhibited sporozoite infection of hepatocytes in vitro. Significant variations in magnitude of antigen-specific inhibitory antibody responses were observed with individual samples. The highest inhibitory responses were observed with anti-CelTOS antibodies, followed by anti-SPECT1, SSP3 and CSP antibodies respectively. These data highlight the vaccine potential of these antigens in protecting against hepatocyte infection and the need for a multi-valent pre-erythrocytic vaccine to prevent liver stage development of P. vivax sporozoites., (© 2024. The Author(s).)

Published

2024

4. Comparative analyses of functional antibody-mediated inhibition with anti-circumsporozoite monoclonal antibodies against transgenic Plasmodium berghei.

Author

Nicholas J, Kolli SK, Subramani PA, De SL, Ogbondah MM, Barnes SJ, Ntumngia FB, and Adams JH

Subjects

Mice, Animals, Plasmodium berghei genetics, Plasmodium falciparum genetics, RNA, Ribosomal, 18S, Protozoan Proteins genetics, Animals, Genetically Modified, Antibodies, Protozoan, Antibodies, Monoclonal, Malaria Vaccines

Abstract

Background: Acquired functional inhibitory antibodies are one of several humoral immune mechanisms used to neutralize foreign pathogens. In vitro bioassays are useful tools for quantifying antibody-mediated inhibition and evaluating anti-parasite immune antibodies. However, a gap remains in understanding of how antibody-mediated inhibition in vitro translates to inhibition in vivo. In this study, two well-characterized transgenic Plasmodium berghei parasite lines, PbmCh-luc and Pb-PfCSP(r), and murine monoclonal antibodies (mAbs) specific to P. berghei and Plasmodium falciparum circumsporozoite protein (CSP), 3D11 and 2A10, respectively, were used to evaluate antibody-mediated inhibition of parasite development in both in vitro and in vivo functional assays., Methods: IC 50 values of mAbs were determined using an established inhibition of liver-stage development assay (ILSDA). For the in vivo inhibition assay, mice were passively immunized by transfer of the mAbs and subsequently challenged with 5.0 × 10 3 sporozoites via tail vein injection. The infection burden in both assays was quantified by luminescence and qRT-PCR of P. berghei 18S rRNA normalized to host GAPDH., Results: The IC 50 values quantified by relative luminescence of mAbs 3D11 and 2A10 were 0.396 µg/ml and 0.093 µg/ml, respectively, against transgenic lines in vitro. Using the highest (> 90%) inhibitory antibody concentrations in a passive transfer, an IC 50 of 233.8 µg/ml and 181.5 µg/ml for mAbs 3D11 and 2A10, respectively, was observed in vivo. At 25 µg (250 µg/ml), the 2A10 antibody significantly inhibited liver burden in mice compared to control. Additionally, qRT-PCR of P. berghei 18S rRNA served as a secondary validation of liver burden quantification., Conclusions: Results from both experimental models, ILSDA and in vivo challenge, demonstrated that increased concentrations of the homologous anti-CSP repeat mAbs increased parasite inhibition. However, differences in antibody IC 50 values between parasite lines did not allow a direct correlation between the inhibition of sporozoite invasion in vitro by ILSDA and the inhibition of mouse liver stage burden. Further studies are needed to establish the conditions for confident predictions for the in vitro ILSDA to be a predictor of in vivo outcomes using this model system., (© 2023. The Author(s).)

Published

2023

5. Preliminary characterization of Plasmodium vivax sporozoite antigens as pre-erythrocytic vaccine candidates.

Author

Nicholas J, De SL, Thawornpan P, Brashear AM, Kolli SK, Subramani PA, Barnes SJ, Cui L, Chootong P, Ntumngia FB, and Adams JH

Subjects

Humans, Animals, Mice, Sporozoites, Antigens, Protozoan genetics, Antibodies, Neutralizing, B-Lymphocytes, Membrane Proteins, Plasmodium vivax genetics, Malaria, Vivax prevention & control

Abstract

Plasmodium vivax pre-erythrocytic (PE) vaccine research has lagged far behind efforts to develop Plasmodium falciparum vaccines. There is a critical gap in our knowledge of PE antigen targets that can induce functionally inhibitory neutralizing antibody responses. To overcome this gap and guide the selection of potential PE vaccine candidates, we considered key characteristics such as surface exposure, essentiality to infectivity and liver stage development, expression as recombinant proteins, and functional immunogenicity. Selected P. vivax sporozoite antigens were surface sporozoite protein 3 (SSP3), sporozoite microneme protein essential for cell traversal (SPECT1), sporozoite surface protein essential for liver-stage development (SPELD), and M2 domain of MAEBL. Sequence analysis revealed little variation occurred in putative B-cell and T-cell epitopes of the PE candidates. Each antigen was tested for expression as refolded recombinant proteins using an established bacterial expression platform and only SPELD failed. The successfully expressed antigens were immunogenic in vaccinated laboratory mice and were positively reactive with serum antibodies of P. vivax-exposed residents living in an endemic region in Thailand. Vaccine immune antisera were tested for reactivity to native sporozoite proteins and for their potential vaccine efficacy using an in vitro inhibition of liver stage development assay in primary human hepatocytes quantified on day 6 post-infection by high content imaging analysis. The anti-PE sera produced significant inhibition of P. vivax sporozoite invasion and liver stage development. This report provides an initial characterization of potential new PE candidates for a future P. vivax vaccine., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Nicholas et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

6. PM2.5: Epigenetic Alteration in Lung Physiology and Lung Cancer Pathogenesis.

Author

Parida T, Daka G, Murapala D, Kolli SK, Malla RR, and Namuduri S

Subjects

Humans, Particulate Matter analysis, Particulate Matter toxicity, Epigenesis, Genetic, Lung chemistry, Air Pollutants analysis, Air Pollutants toxicity, Lung Neoplasms genetics

Abstract

Particulate matter (PM) has a very negative impact on human health, specifically the respiratory system. PM comes in many forms, among these is PM2.5,which is a major risk factor for lung cancer and other cardiovascular diseases. PM is inherent in emissions from industrial production, manufacturing, vehicle exhaust, mining, and cigarette smoking. For this reason, the composition of PM differs from area to area although its primary constituents are heavy metals and petroleum elements. PM has a long and toxic impact on human health. After extended exposure to PM2.5 the mortality rate for lung cancer patients increases. Already, lung cancer is the leading cause of death globally with the highest mortality rate. PM2.5 creates epigenetic changes in miRNA, histone modification, and DNA methylation, causing tumorigenesis followed by lung cancer.

Published

2023

7. Creation and preclinical evaluation of genetically attenuated malaria parasites arresting growth late in the liver.

Author

Franke-Fayard B, Marin-Mogollon C, Geurten FJA, Chevalley-Maurel S, Ramesar J, Kroeze H, Baalbergen E, Wessels E, Baron L, Soulard V, Martinson T, Aleshnick M, Huijs ATG, Subudhi AK, Miyazaki Y, Othman AS, Kolli SK, Lamers OAC, Roques M, Stanway RR, Murphy SC, Foquet L, Moita D, Mendes AM, Prudêncio M, Dechering KJ, Heussler VT, Pain A, Wilder BK, Roestenberg M, and Janse CJ

Abstract

Whole-sporozoite (WSp) malaria vaccines induce protective immune responses in animal malaria models and in humans. A recent clinical trial with a WSp vaccine comprising genetically attenuated parasites (GAP) which arrest growth early in the liver (PfSPZ-GA1), showed that GAPs can be safely administered to humans and immunogenicity is comparable to radiation-attenuated PfSPZ Vaccine. GAPs that arrest late in the liver stage (LA-GAP) have potential for increased potency as shown in rodent malaria models. Here we describe the generation of four putative P. falciparum LA-GAPs, generated by CRISPR/Cas9-mediated gene deletion. One out of four gene-deletion mutants produced sporozoites in sufficient numbers for further preclinical evaluation. This mutant, PfΔmei2, lacking the mei2-like RNA gene, showed late liver growth arrest in human liver-chimeric mice with human erythrocytes, absence of unwanted genetic alterations and sensitivity to antimalarial drugs. These features of PfΔmei2 make it a promising vaccine candidate, supporting further clinical evaluation. PfΔmei2 (GA2) has passed regulatory approval for safety and efficacy testing in humans based on the findings reported in this study., (© 2022. The Author(s).)

Published

2022

8. Malaria parasite evades mosquito immunity by glutaminyl cyclase-mediated posttranslational protein modification.

Author

Kolli SK, Molina-Cruz A, Araki T, Geurten FJA, Ramesar J, Chevalley-Maurel S, Kroeze HJ, Bezemer S, de Korne C, Withers R, Raytselis N, El Hebieshy AF, Kim RQ, Child MA, Kakuta S, Hisaeda H, Kobayashi H, Annoura T, Hensbergen PJ, Franke-Fayard BM, Barillas-Mury C, Scheeren FA, and Janse CJ

Subjects

Animals, Glutamic Acid metabolism, Glutamine metabolism, Humans, Plasmodium berghei genetics, Plasmodium berghei immunology, Protozoan Proteins immunology, Aminoacyltransferases immunology, Culicidae immunology, Malaria genetics, Malaria immunology, Malaria parasitology, Protein Processing, Post-Translational immunology, Sporozoites immunology

Abstract

Glutaminyl cyclase (QC) modifies N-terminal glutamine or glutamic acid residues of target proteins into cyclic pyroglutamic acid (pGlu). Here, we report the biochemical and functional analysis of Plasmodium QC. We show that sporozoites of QC-null mutants of rodent and human malaria parasites are recognized by the mosquito immune system and melanized when they reach the hemocoel. Detailed analyses of rodent malaria QC-null mutants showed that sporozoite numbers in salivary glands are reduced in mosquitoes infected with QC-null or QC catalytically dead mutants. This phenotype can be rescued by genetic complementation or by disrupting mosquito melanization or phagocytosis by hemocytes. Mutation of a single QC-target glutamine of the major sporozoite surface protein (circumsporozoite protein; CSP) of the rodent parasite Plasmodium berghei also results in melanization of sporozoites. These findings indicate that QC-mediated posttranslational modification of surface proteins underlies evasion of killing of sporozoites by the mosquito immune system.

Published

2022

9. A conserved Plasmodium structural integrity maintenance protein (SIMP) is associated with sporozoite membrane and is essential for maintaining shape and infectivity.

Author

Singh D, Patri S, Narahari V, Segireddy RR, Dey S, Saurabh A, Vijay M, Prabhu NP, Srivastava A, Kolli SK, and Kumar KA

Subjects

Animals, Dipeptides, Hepatocytes metabolism, Mammals metabolism, Plasmodium berghei genetics, Plasmodium berghei metabolism, Protozoan Proteins metabolism, Sporozoites metabolism

Abstract

Plasmodium sporozoites are extracellular forms introduced during mosquito bite that selectively invade mammalian hepatocytes. Sporozoites are delimited by a cell membrane that is linked to the underlying acto-myosin molecular motor. While membrane proteins with roles in motility and invasion have been well studied, very little is known about proteins that maintain the sporozoite shape. We demonstrate that in Plasmodium berghei (Pb) a conserved hypothetical gene, PBANKA_1422900 specifies sporozoite structural integrity maintenance protein (SIMP) required for maintaining the sporozoite shape and motility. Sporozoites lacking SIMP exhibited loss of regular shape, extensive membrane blebbing at multiple foci, and membrane detachment. The mutant sporozoites failed to infect hepatocytes, though the altered shape did not affect the organization of cytoskeleton or inner membrane complex (IMC). Interestingly, the components of IMC failed to extend under the membrane blebs likely suggesting that SIMP may assist in anchoring the membrane to IMC. Endogenous C-terminal HA tagging localized SIMP to membrane and revealed the C-terminus of the protein to be extracellular. Since SIMP is highly conserved among Plasmodium species, these findings have important implications for utilizing it as a novel sporozoite-specific vaccine candidate., (© 2022 John Wiley & Sons Ltd.)

Published

2022

10. Screening of viral-vectored P. falciparum pre-erythrocytic candidate vaccine antigens using chimeric rodent parasites.

Author

Kolli SK, Salman AM, Ramesar J, Chevalley-Maurel S, Kroeze H, Geurten FGA, Miyazaki S, Mukhopadhyay E, Marin-Mogollon C, Franke-Fayard B, Hill AVS, and Janse CJ

Subjects

Animals, Antibodies, Protozoan immunology, Antibodies, Protozoan metabolism, Antigens, Protozoan immunology, Antigens, Protozoan metabolism, Erythrocytes metabolism, Female, Malaria Vaccines therapeutic use, Malaria, Falciparum genetics, Malaria, Falciparum immunology, Mice, Mice, Inbred BALB C, Plasmodium falciparum metabolism, Protozoan Proteins metabolism, Ribosomal Protein L3, Sporozoites pathogenicity, Malaria, Falciparum parasitology, Plasmodium falciparum pathogenicity

Abstract

To screen for additional vaccine candidate antigens of Plasmodium pre-erythrocytic stages, fourteen P. falciparum proteins were selected based on expression in sporozoites or their role in establishment of hepatocyte infection. For preclinical evaluation of immunogenicity of these proteins in mice, chimeric P. berghei sporozoites were created that express the P. falciparum proteins in sporozoites as an additional copy gene under control of the uis4 gene promoter. All fourteen chimeric parasites produced sporozoites but sporozoites of eight lines failed to establish a liver infection, indicating a negative impact of these P. falciparum proteins on sporozoite infectivity. Immunogenicity of the other six proteins (SPELD, ETRAMP10.3, SIAP2, SPATR, HT, RPL3) was analyzed by immunization of inbred BALB/c and outbred CD-1 mice with viral-vectored (ChAd63 or ChAdOx1, MVA) vaccines, followed by challenge with chimeric sporozoites. Protective immunogenicity was determined by analyzing parasite liver load and prepatent period of blood stage infection after challenge. Of the six proteins only SPELD immunized mice showed partial protection. We discuss both the low protective immunogenicity of these proteins in the chimeric rodent malaria challenge model and the negative effect on P. berghei sporozoite infectivity of several P. falciparum proteins expressed in the chimeric sporozoites., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

11. A Hetero-Multimeric Chitinase-Containing Plasmodium falciparum and Plasmodium gallinaceum Ookinete-Secreted Protein Complex Involved in Mosquito Midgut Invasion.

Author

Patra KP, Kaur H, Kolli SK, Wozniak JM, Prieto JH, Yates JR 3rd, Gonzalez DJ, Janse CJ, and Vinetz JM

Subjects

Animals, Plasmodium falciparum genetics, Anopheles, Chitinases genetics, Plasmodium, Plasmodium gallinaceum

Abstract

Malaria parasites are transmitted by  Anopheles  mosquitoes. During its life cycle in the mosquito vector the Plasmodium ookinete escapes the proteolytic milieu of the post-blood meal midgut by traversing the midgut wall. This process requires penetration of the chitin-containing peritrophic matrix lining the midgut epithelium, which depends in part on ookinete-secreted chitinases. Plasmodium falciparum ookinetes have one chitinase (PfCHT1), whereas ookinetes of the avian-infecting parasite, P. gallinaceum , have two, a long and a short form, PgCHT1 and PgCHT2, respectively. Published data indicates that PgCHT2 forms a high molecular weight (HMW) reduction-sensitive complex; and one binding partner is the ookinete-produced von Willebrand A-domain-containing protein, WARP. Size exclusion chromatography data reported here show that P. gallinaceum PgCHT2 and its ortholog, P. falciparum PfCHT1 are covalently-linked components of a HMW chitinase-containing complex (> 1,300 kDa). Mass spectrometry of ookinete-secreted proteins isolated using a new chitin bead pull-down method identified chitinase-associated proteins in P. falciparum and P. gallinaceum ookinete-conditioned culture media. Mass spectrometry of this complex showed the presence of several micronemal proteins including von Willebrand factor A domain-related protein (WARP), ookinete surface enolase, and secreted ookinete adhesive protein (SOAP). To test the hypothesis that ookinete-produced PfCHT1 can form a high molecular homo-multimer or, alternatively, interacts with P. berghei ookinete-produced proteins to produce an HMW hetero-multimer, we created chimeric P. berghei parasites expressing PfCHT1 to replace PbCHT 1, enabling the production of large numbers of PfCHT1-expressing ookinetes. We show that chimeric P. berghei ookinetes express monomeric PfCHT1, but a HMW complex containing PfCHT1 is not present. A better understanding of the chitinase-containing HMW complex may enhance development of next-generation vaccines or drugs that target malaria transmission stages., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Patra, Kaur, Kolli, Wozniak, Prieto, Yates, Gonzalez, Janse and Vinetz.)

Published

2021

12. Generation of a Genetically Modified Chimeric Plasmodium falciparum Parasite Expressing Plasmodium vivax Circumsporozoite Protein for Malaria Vaccine Development.

Author

Miyazaki Y, Marin-Mogollon C, Imai T, Mendes AM, van der Laak R, Sturm A, Geurten FJA, Miyazaki S, Chevalley-Maurel S, Ramesar J, Kolli SK, Kroeze H, van Schuijlenburg R, Salman AM, Wilder BK, Reyes-Sandoval A, Dechering KJ, Prudêncio M, Janse CJ, Khan SM, and Franke-Fayard B

Subjects

Animals, Antibodies, Protozoan, Mice, Protozoan Proteins genetics, Malaria, Malaria Vaccines genetics, Malaria, Falciparum prevention & control, Plasmodium falciparum genetics, Plasmodium vivax genetics

Abstract

Chimeric rodent malaria parasites with the endogenous circumsporozoite protein ( csp ) gene replaced with csp from the human parasites Plasmodium falciparum ( Pf ) and P. vivax ( Pv ) are used in preclinical evaluation of CSP vaccines. Chimeric rodent parasites expressing Pf CSP have also been assessed as whole sporozoite (WSP) vaccines. Comparable chimeric P. falciparum parasites expressing CSP of P. vivax could be used both for clinical evaluation of vaccines targeting Pv CSP in controlled human P. falciparum infections and in WSP vaccines targeting P. vivax and P. falciparum . We generated chimeric P. falciparum parasites expressing both Pf CSP and Pv CSP. These Pf - Pv CSP parasites produced sporozoite comparable to wild type P. falciparum parasites and expressed Pf CSP and Pv CSP on the sporozoite surface. Pf - Pv CSP sporozoites infected human hepatocytes and induced antibodies to the repeats of both Pf CSP and Pv CSP after immunization of mice. These results support the use of Pf - Pv CSP sporozoites in studies optimizing vaccines targeting Pv CSP., Competing Interests: KD holds stock in TropIQ Health Sciences. RL, AS and KD were employed by TropIQ Health Sciences. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2020 Miyazaki, Marin-Mogollon, Imai, Mendes, van der Laak, Sturm, Geurten, Miyazaki, Chevalley-Maurel, Ramesar, Kolli, Kroeze, van Schuijlenburg, Salman, Wilder, Reyes-Sandoval, Dechering, Prudêncio, Janse, Khan and Franke-Fayard.)

Published

2020

13. Generation of Novel Plasmodium falciparum NF135 and NF54 Lines Expressing Fluorescent Reporter Proteins Under the Control of Strong and Constitutive Promoters.

Author

Miyazaki S, Yang ASP, Geurten FJA, Marin-Mogollon C, Miyazaki Y, Imai T, Kolli SK, Ramesar J, Chevalley-Maurel S, Salman AM, van Gemert GA, van Waardenburg YM, Franke-Fayard B, Hill AVS, Sauerwein RW, Janse CJ, and Khan SM

Subjects

Animals, Clustered Regularly Interspaced Short Palindromic Repeats, Culicidae, Luciferases genetics, Luminescent Proteins genetics, Malaria, Falciparum, Sporozoites, Genes, Reporter, Plasmodium falciparum genetics, Promoter Regions, Genetic

Abstract

Transgenic reporter lines of malaria parasites that express fluorescent or luminescent proteins are valuable tools for drug and vaccine screening assays as well as to interrogate parasite gene function. Different Plasmodium falciparum ( Pf ) reporter lines exist, however nearly all have been created in the African NF54/3D7 laboratory strain. Here we describe the generation of novel reporter lines, using CRISPR/Cas9 gene modification, both in the standard Pf NF54 background and in a recently described Cambodian P. falciparum NF135.C10 line. Sporozoites of this line show more effective hepatocyte invasion and enhanced liver merozoite development compared to Pf NF54. We first generated Pf NF54 reporter parasites to analyze two novel promoters for constitutive and high expression of mCherry-luciferase and GFP in blood and mosquito stages. The promoter sequences were selected based on available transcriptome data and are derived from two housekeeping genes, i.e., translation initiation factor SUI1, putative ( sui1 , PF3D7_1243600) and 40S ribosomal protein S30 ( 40s , PF3D7_0219200). We then generated and characterized reporter lines in the Pf NF135.C10 line which express GFP driven by the sui1 and 40s promoters as well as by the previously used ef1 α promoter ( GFP@ef1 α, GFP@sui1, GFP@40s ). The GFP@40s reporter line showed strongest GFP expression in liver stages as compared to the other two lines. The strength of reporter expression by the 40s promoter throughout the complete life cycle, including liver stages, makes transgenic lines expressing reporters by the 40s promoter valuable novel tools for analyses of P. falciparum ., (Copyright © 2020 Miyazaki, Yang, Geurten, Marin-Mogollon, Miyazaki, Imai, Kolli, Ramesar, Chevalley-Maurel, Salman, van Gemert, van Waardenburg, Franke-Fayard, Hill, Sauerwein, Janse and Khan.)

Published

2020

14. Plasmodium berghei sporozoite specific genes- PbS10 and PbS23/SSP3 are required for the development of exo-erythrocytic forms.

Author

Togiri J, Segireddy RR, Mastan BS, Singh D, Kolli SK, Ghosh A, Al-Nihmi FMA, Maruthi M, Choudhary HH, Dey S, Mishra S, and Kumar KA

Subjects

Animals, Erythrocytes parasitology, Female, Humans, Life Cycle Stages, Mice, Mice, Inbred C57BL, Oocysts genetics, Oocysts growth & development, Oocysts metabolism, Plasmodium berghei genetics, Plasmodium berghei growth & development, Protozoan Proteins genetics, Species Specificity, Sporozoites genetics, Sporozoites metabolism, Malaria parasitology, Plasmodium berghei metabolism, Protozoan Proteins metabolism, Sporozoites growth & development

Abstract

Plasmodium sporozoites are infective forms of the parasite to mammalian hepatocytes. Sporozoite surface or secreted proteins likely play an important role in recognition, invasion and successful establishment of hepatocyte infection. By approaches of reverse genetics, we report the functional analysis of two Plasmodium berghei (Pb) sporozoite specific genes- PbS10 and PbS23/SSP3 that encode for proteins with a putative signal peptide. The expression of both genes was high in oocyst and salivary gland sporozoite stages as compared to other life cycle stages and PbS23/SSP3 protein was detected in salivary gland sporozoites. Both mutants were indistinguishable to wild-type parasites with regard to asexual growth in RBC, ability to complete sexual reproduction and form sporozoites in vector host. While the sporozoite stage of both mutants were able to glide and invade hepatocytes normally in vitro and in vivo, PbS10 mutants suffered growth attenuation at an early stage while PbS23/SSP3 mutants manifested defect during late exo-erythrocytic form maturation. Interestingly, both mutants gave rare breakthrough infections, suggesting that while both were critical for liver stage development, their depletion did not completely abrogate blood stage infection. These findings have important implications for weakening sporozoites by multiple gene attenuation towards the generation of a safe whole organism vaccine., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

15. A Plasmodium berghei putative serine-threonine kinase 2 ( PBANKA_0311400 ) is required for late liver stage development and timely initiation of blood stage infection.

Author

Jillapalli R, Narwal SK, Kolli SK, Mastan BS, Segireddy RR, Dey S, Srivastava PN, Mishra S, and Kumar KA

Abstract

In Plasmodium , protein kinases govern key biological processes of the parasite life cycle involved in the establishment of infection, dissemination and sexual reproduction. The rodent malaria model P lasmodium berghei encodes for 66 putative eukaryotic protein kinases (ePKs) as identified through modelling domain signatures and are highly conserved in Plasmodium falciparum We report here the functional characterisation of a putative serine-threonine kinase P BANKA_0311400 identified in this kinome analysis and designate it as Pbstk2 To elucidate its role, we knocked out Pbstk2 locus and performed a detailed phenotypic analysis at different life cycle stages. The Pbstk2 knockout (KO) was not compromised in asexual blood stage propagation, transmission and development in the mosquito vector. The Pbstk2 KO produced viable salivary gland sporozoites that successfully transformed into exo-erythrocytic forms (EEFs) and were morphologically indistinguishable from wild-type GFP (WT GFP) with regard to size and shape until 48 h. An intravenous dose of 1×10 3 Pbstk2 KO sporozoites in C57BL/6 mice failed to establish blood stage infection and a higher dose of 5X10 3 showed a 2-3 day delay in prepatency as compared to WT GFP parasites. Consistent with such an observation, analysis of in vitro EEF development at 62 h revealed that the hepatic merozoite numbers were reduced to nearly 40% as compared to WT GFP and showed meagre expression of MSP1. Our studies provide evidence for the role of Pb STK2 in late liver stage development and for the successful establishment of a timely blood stage infection., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published

2019

16. A Novel and Conserved Plasmodium Sporozoite Membrane Protein SPELD is Required for Maturation of Exo-erythrocytic Forms.

Author

Al-Nihmi FM, Kolli SK, Reddy SR, Mastan BS, Togiri J, Maruthi M, Gupta R, Sijwali PS, Mishra S, and Kumar KA

Subjects

Amino Acid Motifs, Amino Acid Sequence, Animals, Anopheles parasitology, Erythrocytes metabolism, Female, Gene Dosage, Gene Expression Regulation, Green Fluorescent Proteins, Hep G2 Cells, Humans, Immunity, Immunization, Life Cycle Stages, Liver parasitology, Malaria immunology, Malaria parasitology, Malaria transmission, Membrane Proteins chemistry, Membrane Proteins genetics, Mice, Inbred C57BL, Phenotype, Protein Domains, Protozoan Proteins chemistry, Protozoan Proteins genetics, Protozoan Proteins metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Salivary Glands metabolism, Species Specificity, Sporozoites growth & development, Conserved Sequence, Erythrocytes parasitology, Membrane Proteins metabolism, Plasmodium berghei growth & development, Plasmodium berghei metabolism, Sporozoites metabolism

Abstract

Plasmodium sporozoites are the infective forms of malaria parasite to vertebrate host and undergo dramatic changes in their transcriptional repertoire during maturation in mosquito salivary glands. We report here the role of a novel and conserved Plasmodium berghei protein encoded by PBANKA_091090 in maturation of Exo-erythrocytic Forms (EEFs) and designate it as Sporozoite surface Protein Essential for Liver stage Development (PbSPELD). PBANKA_091090 was previously annotated as PB402615.00.0 and its transcript was recovered at maximal frequency in the Serial Analysis of the Gene Expression (SAGE) of Plasmodium berghei salivary gland sporozoites. An orthologue of this transcript was independently identified in Plasmodium vivax sporozoite microarrays and was designated as Sporozoite Conserved Orthologous Transcript-2 (scot-2). Functional characterization through reverse genetics revealed that PbSPELD is essential for Plasmodium liver stage maturation. mCherry transgenic of PbSPELD localized the protein to plasma membrane of sporozoites and early EEFs. Global microarray analysis of pbspeld ko revealed EEF attenuation being associated with down regulation of genes central to general transcription, cell cycle, proteosome and cadherin signaling. pbspeld mutant EEFs induced pre-erythrocytic immunity with 50% protective efficacy. Our studies have implications for attenuating the human Plasmodium liver stages by targeting SPELD locus.

Published

2017

17. Ligand-free Pd-catalyzed C-N cross-coupling/cyclization strategy: an unprecedented access to 1-thienyl pyrroloquinoxalines for the new approach towards apoptosis.

Author

Kolli SK, Nakhi A, Archana S, Saridena M, Deora GS, Yellanki S, Medisetti R, Kulkarni P, Ramesh Raju R, and Pal M

Subjects

Animals, Catalysis, Cyclization, Dose-Response Relationship, Drug, Molecular Structure, Phosphodiesterase 4 Inhibitors chemical synthesis, Phosphodiesterase 4 Inhibitors chemistry, Pyrroles chemical synthesis, Pyrroles chemistry, Quinoxalines chemical synthesis, Quinoxalines chemistry, Structure-Activity Relationship, Thiophenes chemical synthesis, Thiophenes chemistry, Zebrafish embryology, Apoptosis drug effects, Palladium chemistry, Phosphodiesterase 4 Inhibitors pharmacology, Pyrroles pharmacology, Quinoxalines pharmacology, Thiophenes pharmacology

Abstract

The link between PDE4 and apoptosis prompted us to design and synthesize for the first time a series of novel 1-thienyl pyrroloquinoxalines as potential PDE4 inhibitors/apoptotic agents. A ligand-free Pd-catalyzed C-N cross-coupling/cyclization strategy has been developed for the rapid and milder access to this class of compounds some of which showed interesting pharmacological properties when tested in vitro and in zebrafish embryos., (Copyright © 2014 Elsevier Masson SAS. All rights reserved.)

Published

2014

18. NaSH in the construction of thiophene ring fused with N-heterocycles: a rapid and inexpensive synthesis of novel small molecules as potential inducers of apoptosis.

Author

Kolli SK, Nakhi A, Medishetti R, Yellanki S, Kulkarni P, Ramesh Raju R, and Pal M

Subjects

Animals, Crystallography, X-Ray, Dose-Response Relationship, Drug, Models, Molecular, Molecular Structure, Small Molecule Libraries chemical synthesis, Small Molecule Libraries chemistry, Structure-Activity Relationship, Thiophenes chemical synthesis, Thiophenes chemistry, Zebrafish embryology, Apoptosis drug effects, Heterocyclic Compounds chemistry, Small Molecule Libraries pharmacology, Sulfides chemistry, Thiophenes pharmacology

Abstract

A facile construction of a thiophene ring fused with N-heterocycles has been achieved via the reaction of NaSH with 2-chloro-3-alkynyl quinoxalines/pyrazines leading to novel 2-substituted thieno[2,3-b]pyrazine/quinoxaline derivatives as potential inducers of apoptosis. Some of them showed encouraging pharmacological properties when tested in zebrafish., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

19. TFAA/H3PO4 mediated unprecedented N-acylation of carbazoles leading to small molecules possessing anti-proliferative activities against cancer cells.

Author

Kolli SK, Prasad B, Babu PV, Ashfaq MA, Ehtesham NZ, Raju RR, and Pal M

Subjects

Acylation, Carboxylic Acids chemistry, Cell Line, Tumor, Cell Proliferation drug effects, HEK293 Cells, Humans, Small Molecule Libraries chemistry, Stereoisomerism, Acetic Anhydrides chemistry, Carbazoles pharmacology, Fluoroacetates chemistry, Neoplasms pathology, Phosphoric Acids chemistry, Small Molecule Libraries pharmacology

Abstract

For the first time TFAA/H3PO4 has facilitated the direct and metal-free N-acylation of carbazoles leading to a number of N-acylated derivatives. Several of these compounds were found to be promising when tested for their anti-proliferative properties against oral cancer cell lines.

Published

2014

20. Definition and classification of cerebral palsy.

Author

Carr LJ, Reddy SK, Stevens S, Blair E, and Love S

Subjects

Cerebral Palsy physiopathology, Child, Child, Preschool, Humans, Infant, Severity of Illness Index, Cerebral Palsy classification, Cerebral Palsy diagnosis, Terminology as Topic

Published

2005

21. Awareness of HIV/AIDS among medical students.

Author

Basavayya GS, Sai TS, and Kolli SK

Subjects

Adolescent, Adult, Female, HIV Infections transmission, Humans, India, Male, Students, Medical, Education, Medical, HIV Infections prevention & control, Health Knowledge, Attitudes, Practice

Abstract

A cross-sectional study among 145 fresh entrants of medical education revealed that, 99% of boys and 98% of girls are aware of AIDS by its definition and its causation. 96% of girls, compared to 91% of boys are aware that, HIV spreads by blood. Very few, 5% of girls and 2.5% of boys are of the misconception that HIV may be transmitted through health personnel on examination of HIV patient. About 80% of boys and 90% of girls opine that HIV is transmitted through pregnancy.

Published

2005