Evaluation of the <i>Leishmania</i> Inositol Phosphorylceramide Synthase as a Drug Target Using a Chemical and Genetic Approach

Alpizar-Sosa, Edubiel A.; Zimbres, Flavia M.; Mantilla, Brian S.; Dickie, Emily A.; Wei, Wenbin; Burle-Caldas, Gabriela A.; Filipe, Laura N. S.; Van Bocxlaer, Katrien; Price, Helen P.; Ibarra-Meneses, Ana V.; Beaudry, Francis; Fernandez-Prada, Christopher; Whitfield, Philip D.; Barrett, Michael P.; Denny, Paul W.

doi:10.1021/acsinfecdis.4c00284

ACS Infect. Dis.

2024

DOI: 10.1021/acsinfecdis.4c00284

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Evaluation of the Leishmania Inositol Phosphorylceramide Synthase as a Drug Target Using a Chemical and Genetic Approach

Edubiel A. Alpizar-Sosa,

Flavia M. Zimbres,

Brian S. Mantilla

et al.

Abstract: The lack of effective vaccines and the development of resistance to the current treatments highlight the urgent need for new anti-leishmanials. Sphingolipid metabolism has been proposed as a promising source of Leishmania-specific targets as these lipids are key structural components of the eukaryotic plasma membrane and are involved in distinct cellular events. Inositol phosphorylceramide (IPC) is the primary sphingolipid in the Leishmania species and is the product of a reaction mediated by IPC synthase (IPC… Show more

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Cited by 2 publications

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Diversification of sphingolipid synthase activities in kinetoplastid protozoa

Ciganda,

Jackson,

Bangs

2024

Molecular and Biochemical Parasitology

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Diversification of sphingolipid synthase activities in kinetoplastid protozoa

Ciganda,

Jackson,

Bangs

2024

Molecular and Biochemical Parasitology

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Stage-specific function of sphingolipid synthases in African trypanosomes

Heise,

Koeller,

Sharif

et al. 2024

mBio

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The protozoan parasite Trypanosoma brucei is the only known eukaryote capable of synthesizing the three main phosphosphingolipids: sphingomyelin (SM), inositol phosphorylceramide (IPC), and ethanolamine phosphorylceramide (EPC). It has four paralogous genes encoding sphingolipid synthases ( TbSLS1–4 ). TbSLS1 is a dedicated IPC synthase, TbSLS2 is a dedicated EPC synthase, and TbSLS3 and TbSLS4 are bifunctional SM/EPC synthases. IPC synthesis occurs exclusively in the procyclic insect stage (PCF), EPC is limited to the mammalian bloodstream form (BSF), and SM is synthesized throughout the life cycle. TbSLSs are indispensable for the viability of BSF and are, thus, potential drug targets. The relative stage-specific expression of each TbSLS paralog was compared, and the results match phosphosphingolipid content. Induction of pan-specific RNAi silencing was lethal in both BSF and PCF. To investigate individual TbSLS functions, separate HA-tagged genes, recoded to be RNAi-resistant (RNAi R ), were engineered to replace a single allele of the entire TbSLS locus within parental BSF and PCF RNAi cell lines. RNAi R TbSLS3 and TbSLS4 both rescued BSF growth under silencing. Expression of RNAi R TbSLS1 , normally repressed in BSF, did not rescue BSF viability but was not detrimental to normal in vitro growth. RNAi R TbSLS1 , TbSLS3 , and TbSLS4 were each sufficient to rescue PCF growth, indicating IPC is not essential for PCF viability in vitro . All TbSLSs localize to distal Golgi compartments in both BSF and PCF cells. These findings raise interesting questions about the roles of individual phosphosphingolipids in in vivo infection of the mammalian and tsetse hosts. IMPORTANCE African trypanosomes are eukaryotic pathogens that cause human and veterinary African trypanosomaisis. Uniquely, they synthesize all three major phosphosphingolipid species using four distinct sphingolipid synthases (SLS). This work details the function of each SLS in both bloodstream and insect form parasites. Novel and unexpected sphingolipid dependences are found in each stage. These results are consistent with this metabolic pathway being a valid target for chemotherapeutic intervention.

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Evaluation of the Leishmania Inositol Phosphorylceramide Synthase as a Drug Target Using a Chemical and Genetic Approach

Cited by 2 publications

References 65 publications

Diversification of sphingolipid synthase activities in kinetoplastid protozoa

Diversification of sphingolipid synthase activities in kinetoplastid protozoa

Stage-specific function of sphingolipid synthases in African trypanosomes

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