1. Academic Validation
  2. Small Molecule Activation of NAPE-PLD Enhances Efferocytosis by Macrophages

Small Molecule Activation of NAPE-PLD Enhances Efferocytosis by Macrophages

  • bioRxiv. 2023 Feb 28;2023.01.25.525554. doi: 10.1101/2023.01.25.525554.
Jonah E Zarrow 1 Abdul-Musawwir Alli-Oluwafuyi 1 Cristina M Youwakim 2 Kwangho Kim 3 4 Andrew N Jenkins 5 Isabelle C Suero 1 Margaret R Jones 3 Zahra Mashhadi 1 Kenneth P Mackie 6 Alex G Waterson 1 3 4 Amanda C Doran 2 Gary A Sulikowski 1 3 4 Sean S Davies 1 4
Affiliations

Affiliations

  • 1 Department of Pharmacology , Vanderbilt University. Nashville, TN.
  • 2 Department of Medicine, Division of Cardiology, Vanderbilt University Medical Center. Nashville, TN.
  • 3 Department of Pharmacology Chemistry , Vanderbilt University. Nashville, TN.
  • 4 Vanderbilt Institute of Chemical Biology, Vanderbilt University. Nashville, TN.
  • 5 Department of Cell Biology and Physiology, Brigham Young University. Provo, UT.
  • 6 Gill Center and Department of Psychological and Brain Sciences, Indiana University, Bloomington, IN.
Abstract

N -acyl-phosphatidylethanolamine hydrolyzing Phospholipase D (NAPE-PLD) is a zinc metallohydrolase that hydrolyzes N -acyl-phosphatidylethanolamine (NAPEs) to form N -acyl-ethanolamides (NAEs) and phosphatidic acid. Several lines of evidence suggest that reduced NAPE-PLD activity could contribute to cardiometabolic diseases. For instance, NAPEPLD expression is reduced in human coronary arteries with unstable atherosclerotic lesions, defective efferocytosis is implicated in the enlargement of necrotic cores of these lesions, and NAPE-PLD products such as palmitoylethanolamide and oleoylethanolamide have been shown to enhance efferocytosis. Thus, Enzyme activation mediated by a small molecule may serve as a therapeutic treatment for cardiometabolic diseases. As a proof-of-concept study, we sought to identify small molecule activators of NAPE-PLD. High-throughput screening followed by hit validation and primary lead optimization studies identified a series of benzothiazole phenylsulfonyl-piperidine carboxamides that variably increased activity of both mouse and human NAPE-PLD. From this set of small molecules, two NAPE-PLD activators (VU534 and VU533) were shown to increase efferocytosis by bone-marrow derived macrophages isolated from wild-type mice, while efferocytosis was significantly reduced in Napepld -/- BMDM or after Nape-pld inhibition. Together these studies demonstrate an essential role for NAPE-PLD in the regulation of efferocytosis and the potential value of NAPE-PLD activators as a strategy to treat cardiometabolic diseases.

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