Literature DB >> 31871049

ACE overexpression in myeloid cells increases oxidative metabolism and cellular ATP.

Duo-Yao Cao1, Weston R Spivia2, Luciana C Veiras1, Zakir Khan1,3, Zhenzi Peng1, Anthony E Jones4, Ellen A Bernstein1, Suguru Saito1, Derick Okwan-Duodu1,3, Sarah J Parker2,5, Jorge F Giani1,3, Ajit S Divakaruni4, Jennifer E Van Eyk2, Kenneth E Bernstein6,3.   

Abstract

Angiotensin-converting enzyme (ACE) affects blood pressure. In addition, ACE overexpression in myeloid cells increases their immune function. Using MS and chemical analysis, we identified marked changes of intermediate metabolites in ACE-overexpressing macrophages and neutrophils, with increased cellular ATP (1.7-3.0-fold) and Krebs cycle intermediates, including citrate, isocitrate, succinate, and malate (1.4-3.9-fold). Increased ATP is due to ACE C-domain catalytic activity; it is reversed by an ACE inhibitor but not by an angiotensin II AT1 receptor antagonist. In contrast, macrophages from ACE knockout (null) mice averaged only 28% of the ATP levels found in WT mice. ACE overexpression does not change cell or mitochondrial size or number. However, expression levels of the electron transport chain proteins NDUFB8 (complex I), ATP5A, and ATP5β (complex V) are significantly increased in macrophages and neutrophils, and COX1 and COX2 (complex IV) are increased in macrophages overexpressing ACE. Macrophages overexpressing ACE have increased mitochondrial membrane potential (24% higher), ATP production rates (29% higher), and maximal respiratory rates (37% higher) compared with WT cells. Increased cellular ATP underpins increased myeloid cell superoxide production and phagocytosis associated with increased ACE expression. Myeloid cells overexpressing ACE indicate the existence of a novel pathway in which myeloid cell function can be enhanced, with a key feature being increased cellular ATP.
© 2020 Cao et al.

Entities:  

Keywords:  ATP; angiotensin-converting enzyme (ACE); electron transport chain; macrophage; mitochondria; neutrophil; oxidative metabolism

Mesh:

Substances:

Year:  2019        PMID: 31871049      PMCID: PMC6996878          DOI: 10.1074/jbc.RA119.011244

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  34 in total

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