Anshul Budhraja scite author profile

Anshul Budhraja

4Publications

44Citation Statements Received

378Citation Statements Given

How they've been cited

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452

334

Affiliations

Indian Institute of Technology Delhi

Publications

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Molecular signature of postmortem lung tissue from COVID-19 patients suggests distinct trajectories driving mortality

Budhraja¹,

Basu²,

Gheware

et al. 2022

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To elucidate the molecular mechanisms manifesting lung abnormalities during severe SARS-CoV-2 infections, we performed whole transcriptome sequencing of lung autopsies from 31 patients with severe COVID-19 and 10 uninfected controls. Using metatranscriptomics, we identified the existence of two distinct molecular signatures of lethal COVID-19. The dominant “classical” signature (n=23) showed upregulation of unfolded protein response, steroid biosynthesis and complement activation supported by massive metabolic reprogramming leading to characteristic lung damage. The rarer signature (n=8) potentially representing “Cytokine Release Syndrome” (CRS) showed upregulation of cytokines such IL1 and CCL19 but absence of complement activation. We found that a majority of patients cleared SARS-CoV-2 infection, but they suffered from acute dysbiosis with characteristic enrichment of opportunistic pathogens such as Staphylococcus cohnii in “classical” patients and Pasteurella multocida in CRS patients. Our results suggest two distinct models of lung pathology in severe COVID-19 patients that can be identified through complement activation, presence of specific cytokines and characteristic microbiome that may be used to design personalized therapy using in-silico identified drug molecules or in mitigating specific secondary infections.

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The polybasic insert, the RBD of the SARS-CoV-2 spike protein, and the feline coronavirus – evolved or yet to evolve

Budhraja¹,

Pandey²,

Kannan³

et al. 2021

Biochemistry and Biophysics Reports

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Molecular signature of postmortem lung tissue from COVID-19 patients suggests distinct trajectories driving mortality

Budhraja

Basu

Gheware

et al. 2021

Preprint

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The precise molecular mechanisms behind severe life-threatening lung abnormalities during severe SARS-CoV-2 infections are still unclear. To address this challenge, we performed whole transcriptome sequencing of lung autopsies from 31 patients suffering from severe COVID-19 related complications and 10 uninfected controls. Using a metatranscriptome analysis of lung tissue samples we identified the existence of two distinct molecular signatures of lethal COVID-19. The dominant “classical” signature (n=23) showed upregulation of unfolded protein response, steroid biosynthesis and complement activation supported by massive metabolic reprogramming leading to characteristic lung damage. The rarer signature (n=8) potentially representing “Cytokine Release Syndrome” (CRS) showed upregulation of IL1 cytokines such CCL19 but absence of complement activation and muted inflammation. Further, dissecting expression of individual genes within enriched pathways for patient signature suggests heterogeneity in host response to the primary infection. We found that the majority of patients cleared the SARS-CoV-2 infection, but all suffered from acute dysbiosis with characteristic enrichment of opportunistic pathogens such as Gordonia bronchialis in “classical” patients and Staphylococcus warneri in CRS patients. Our results suggest two distinct models of lung pathology in severe COVID-19 patients that can be identified through the status of the complement activation, presence of specific cytokines and characteristic microbiome. This information can be used to design personalized therapy to treat COVID-19 related complications corresponding to patient signature such as using the identified drug molecules or mitigating specific secondary infections.

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Novel omics technology driving translational research in precision oncology

Basu

Budhraja

Juwayria

et al. 2021

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Anshul Budhraja

Molecular signature of postmortem lung tissue from COVID-19 patients suggests distinct trajectories driving mortality

The polybasic insert, the RBD of the SARS-CoV-2 spike protein, and the feline coronavirus – evolved or yet to evolve

Molecular signature of postmortem lung tissue from COVID-19 patients suggests distinct trajectories driving mortality

Novel omics technology driving translational research in precision oncology

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