Frontiers in Immunology (Aug 2024)

Mitochondrial chaperon TNF-receptor- associated protein 1 as a novel apoptotic regulator conferring susceptibility to Pneumocystis jirovecii pneumonia

  • Aseervatham Anusha Amali,
  • Kathirvel Paramasivam,
  • Chiung Hui Huang,
  • Abhinav Joshi,
  • Jayshree L. Hirpara,
  • Sharada Ravikumar,
  • Qi Hui Sam,
  • Qi Hui Sam,
  • Rachel Ying Min Tan,
  • Zhaohong Tan,
  • Dilip Kumar,
  • Leonard M. Neckers,
  • Shazib Pervaiz,
  • Roger Foo,
  • Roger Foo,
  • Candice Y Y Chan,
  • Jin Zhu,
  • Cheryl Lee,
  • Louis Yi Ann Chai,
  • Louis Yi Ann Chai,
  • Louis Yi Ann Chai

DOI
https://doi.org/10.3389/fimmu.2024.1423086
Journal volume & issue
Vol. 15

Abstract

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Molecular chaperons stabilize protein folding and play a vital role in maintaining tissue homeostasis. To this intent, mitochondrial molecular chaperons may be involved in the regulation of oxidative phosphorylation and apoptosis during stress events such as infections. However, specific human infectious diseases relatable to defects in molecular chaperons have yet to be identified. To this end, we performed whole exome sequencing and functional immune assessment in a previously healthy Asian female, who experienced severe respiratory failure due to Pneumocystis jiroveci pneumonia and non-HIV-related CD4 lymphocytopenia. This revealed that a chaperon, the mitochondrial paralog of HSP90, TRAP1, may have been involved in the patient’s susceptibility to an opportunistic infection. Two rare heterozygous variants in TRAP1, E93Q, and A64T were detected. The patient’s peripheral blood mononuclear cells displayed diminished TRAP1 expression, but had increased active, cleaved caspase-3, caspase-7, and elevated IL-1β production. Transfection of A64T and E93Q variants in cell lines yielded decreased TRAP1 compared to transfected wildtype TRAP1 and re-capitulated the immunotypic phenotype of enhanced caspase-3 and caspase-7 activity. When infected with live P. jiroveci, the E93Q or A64T TRAP1 mutant expressing cells also exhibited reduced viability. Patient cells and cell lines transfected with the TRAP1 E93Q/A64T mutants had impaired respiration, glycolysis, and increased ROS production. Of note, co-expression of E93Q/A64T double mutants caused more functional aberration than either mutant singly. Taken together, our study uncovered a previously unrecognized role of TRAP1 in CD4+ lymphocytopenia, conferring susceptibility to opportunistic infections.

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