Frontiers in Cardiovascular Medicine (Jun 2024)

RNAseq of INOCA patients identifies innate, invariant, and acquired immune changes: potential autoimmune microvascular dysfunction

  • Kevin Jaatinen,
  • Palak Shah,
  • Ramesh Mazhari,
  • Zane Hayden,
  • Richard Wargowsky,
  • Tisha Jepson,
  • Tisha Jepson,
  • Tisha Jepson,
  • Ian Toma,
  • Ian Toma,
  • John Perkins,
  • Timothy A. McCaffrey,
  • Timothy A. McCaffrey,
  • Timothy A. McCaffrey

DOI
https://doi.org/10.3389/fcvm.2024.1385457
Journal volume & issue
Vol. 11

Abstract

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BackgroundIschemia with non-obstructive coronary arteries (INOCA) is a major clinical entity that involves potentially 20%–30% of patients with chest pain. INOCA is typically attributed either to coronary microvascular disease and/or vasospasm, but is likely distinct from classical coronary artery disease (CAD).ObjectivesTo gain insights into the etiology of INOCA and CAD, RNA sequencing of whole blood from patients undergoing both stress testing and elective invasive coronary angiography (ICA) was conducted.MethodsStress testing and ICA of 177 patients identified 40 patients (23%) with INOCA compared to 39 controls (stress-, ICA-). ICA+ patients divided into 38 stress- and 60 stress+. RNAseq was performed by Illumina with ribosomal RNA depletion. Transcriptome changes were analyzed by DeSeq2 and curated by manual and automated methods.ResultsDifferentially expressed genes for INOCA were associated with elevated levels of transcripts related to mucosal-associated invariant T (MAIT) cells, plasmacytoid dendritic cells (pcDC), and memory B cells, and were associated with autoimmune diseases such as rheumatoid arthritis. Decreased transcripts were associated with neutrophils, but neutrophil transcripts, per se, were not less abundant in INOCA. CAD transcripts were more related to T cell functions.ConclusionsElevated transcripts related to pcDC, MAIT, and memory B cells suggest an autoimmune component to INOCA. Reduced neutrophil transcripts are likely attributed to chronic activation leading to increased translation and degradation. Thus, INOCA could result from stimulation of B cell, pcDC, invariant T cell, and neutrophil activation that compromises cardiac microvascular function.

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