Satya Ranjan Sahu scite author profile

Deletion of DNA polymerase eta (Rad30/Polη) in pathogenic yeast Candida albicans is known to reduce filamentation induced by serum, ultraviolet, and cisplatin. Because nonfilamentous C. albicans is widely accepted as avirulent form, here we explored the virulence and pathogenicity of a rad30Δ strain of C. albicans in cell‐based and animal systems. Flow cytometry of cocultured fungal and differentiated macrophage cells revealed that comparatively higher percentage of macrophages was associated with the wild‐type than rad30Δ cells. In contrast, higher number of Polη‐deficient C. albicans adhered per macrophage membrane. Imaging flow cytometry showed that the wild‐type C. albicans developed hyphae after phagocytosis that caused necrotic death of macrophages to evade their clearance. Conversely, phagosomes kill the fungal cells as estimated by increased metacaspase activity in wild‐type C. albicans. Despite the morphological differences, both wild‐type and rad30∆ C. albicans were virulent with a varying degree of pathogenicity in mice models. Notably, mice with Th1 immunity were comparatively less susceptible to systemic fungal infection than Th2 type. Thus, our study clearly suggests that the modes of interaction of morphologically different C. albicans strains with the host immune cells are diverged, and host genetic background and several other attributing factors of the fungus could additionally determine their virulence.

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Multifaceted activities of DNA polymerase η: beyond translesion DNA synthesis

Acharya

Manohar

Peroumal

et al. 2018

Curr Genet

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Vaccines against candidiasis: Status, challenges and emerging opportunity

Sahu

Bose

Singh

et al. 2022

Front. Cell. Infect. Microbiol.

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Candidiasis is a mycosis caused by opportunistic Candida species. The occurrence of fungal infections has considerably increased in the last few years primarily due to an increase in the number of immune-suppressed individuals. Alarming bloodstream infections due to Candida sp. are associated with a higher rate of morbidity and mortality, and are emerged as major healthcare concerns worldwide. Currently, chemotherapy is the sole available option for combating fungal diseases. Moreover, the emergence of resistance to these limited available anti-fungal drugs has further accentuated the concern and highlighted the need for early detection of fungal infections, identification of novel antifungal drug targets, and development of effective therapeutics and prophylactics. Thus, there is an increasing interest in developing safe and potent immune-based therapeutics to tackle fungal diseases. In this context, vaccine design and its development have a priority. Nonetheless, despite significant advances in immune and vaccine biology over time, a viable commercialized vaccine remains awaited against fungal infections. In this minireview, we enumerate various concerted efforts made till date towards the development of anti-Candida vaccines, an option with pan-fugal vaccine, vaccines in the clinical trial, challenges, and future opportunities.

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‘PIPs’ in DNA polymerase: PCNA interaction affairs

Acharya

Patel

Sahu

et al. 2020

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Interaction of PCNA with DNA polymerase is vital to efficient and processive DNA synthesis. PCNA being a homotrimeric ring possesses three hydrophobic pockets mostly involved in an interaction with its binding partners. PCNA interacting proteins contain a short sequence of eight amino acids, popularly coined as PIP motif, which snuggly fits into the hydrophobic pocket of PCNA to stabilize the interaction. In the last two decades, several PIP motifs have been mapped or predicted in eukaryotic DNA polymerases. In this review, we summarize our understandings of DNA polymerase-PCNA interaction, the function of such interaction during DNA synthesis, and emphasize the lacunae that persist. Because of the presence of multiple ligands in the replisome complex and due to many interaction sites in DNA polymerases, we also propose two modes of DNA polymerase positioning on PCNA required for DNA synthesis to rationalize the tool-belt model of DNA replication.

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