Frontiers in Pharmacology (Jun 2024)

Adenosine A2A receptor as a potential regulator of Mycobacterium leprae survival mechanisms: new insights into leprosy neural damage

  • Plinio Marcos Freire dos Santos,
  • Chyntia Carolina Díaz Acosta,
  • Chyntia Carolina Díaz Acosta,
  • Thabatta Leal Silveira Andrezo Rosa,
  • Michelle Harumi Ishiba,
  • André Alves Dias,
  • Antonio Marcos Rodrigues Pereira,
  • Luísa Domingos Gutierres,
  • Melissa Pontes Pereira,
  • Matheus da Silva Rocha,
  • Patrícia Sammarco Rosa,
  • Daniele F. F. Bertoluci,
  • Daniele F. F. Bertoluci,
  • José Roberto Meyer-Fernandes,
  • Fabricio da Mota Ramalho Costa,
  • Maria Angela M. Marques,
  • John T. Belisle,
  • Roberta Olmo Pinheiro,
  • Luciana Silva Rodrigues,
  • Maria Cristina Vidal Pessolani,
  • Marcia Berrêdo-Pinho

DOI
https://doi.org/10.3389/fphar.2024.1399363
Journal volume & issue
Vol. 15

Abstract

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BackgroundLeprosy is a chronic infectious disease caused by Mycobacterium leprae, which can lead to a disabling neurodegenerative condition. M. leprae preferentially infects skin macrophages and Schwann cells–glial cells of the peripheral nervous system. The infection modifies the host cell lipid metabolism, subverting it in favor of the formation of cholesterol-rich lipid droplets (LD) that are essential for bacterial survival. Although researchers have made progress in understanding leprosy pathogenesis, many aspects of the molecular and cellular mechanisms of host–pathogen interaction still require clarification. The purinergic system utilizes extracellular ATP and adenosine as critical signaling molecules and plays several roles in pathophysiological processes. Furthermore, nucleoside surface receptors such as the adenosine receptor A2AR involved in neuroimmune response, lipid metabolism, and neuron–glia interaction are targets for the treatment of different diseases. Despite the importance of this system, nothing has been described about its role in leprosy, particularly adenosinergic signaling (AdoS) during M. leprae–Schwann cell interaction.MethodsM. leprae was purified from the hind footpad of athymic nu/nu mice. ST88-14 human cells were infected with M. leprae in the presence or absence of specific agonists or antagonists of AdoS. Enzymatic activity assays, fluorescence microscopy, Western blotting, and RT-qPCR analysis were performed. M. leprae viability was investigated by RT-qPCR, and cytokines were evaluated by enzyme-linked immunosorbent assay.ResultsWe demonstrated that M. leprae-infected Schwann cells upregulated CD73 and ADA and downregulated A2AR expression and the phosphorylation of the transcription factor CREB (p-CREB). On the other hand, activation of A2AR with its selective agonist, CGS21680, resulted in: 1) reduced lipid droplets accumulation and pro-lipogenic gene expression; 2) reduced production of IL-6 and IL-8; 3) reduced intracellular M. leprae viability; 4) increased levels of p-CREB.ConclusionThese findings suggest the involvement of the AdoS in leprosy neuropathogenesis and support the idea that M. leprae, by downmodulating the expression and activity of A2AR in Schwann cells, decreases A2AR downstream signaling, contributing to the maintenance of LD accumulation and intracellular viability of the bacillus.

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