Regulatory interplay between nitric oxide and heme in redox signaling and inflammation
Pooja Pradhan, Roberta Foresti, Roberto Motterlini, Stephan Immenschuh

TL;DR
This paper reviews how nitric oxide and heme interact to regulate redox signaling and inflammation, especially in macrophages.
Contribution
The paper highlights novel insights into the NO-heme regulatory network and its role in immunomodulation and inflammation.
Findings
NO-heme interactions modulate macrophage inflammatory responses and microbial killing.
NO and heme regulate heme-containing enzymes involved in oxidative stress adaptation.
NO generates peroxynitrite, which activates protective feedback loops in macrophages.
Abstract
Nitric oxide (NO) is a key signaling gas that is involved in a wide range of physiological and pathophysiological processes. NO signaling is closely linked to its interactions with heme, an abundant iron-containing tetrapyrrole in the organism. While heme plays vital roles as a prosthetic group in hemoproteins, it can be toxic in its ‘free’, non-protein-bound form. The chemical and structural characteristics of NO-heme binding in heme-nitrosyl complexes have been extensively characterized in earlier research. Recent studies have provided novel insights on how NO-heme interactions affect key functions of the cell and activities of subcellular organelles such as mitochondria. Notably, the NO-heme network plays a crucial immunomodulatory role in inflammatory responses of macrophages, a major cell population of the innate immune system. Upon immunological activation, these cells generate…
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Taxonomy
TopicsHeme Oxygenase-1 and Carbon Monoxide · Nitric Oxide and Endothelin Effects · Hemoglobin structure and function
