Functional characterization of the biogenic amine transporters on human macrophages
Phillip M. Mackie, Adithya Gopinath, Dominic M. Montas, Alyssa Nielsen, Aidan Smith, Rachel A. Nolan, Kaitlyn Runner, Stephanie M. Matt, John McNamee, Joshua E. Riklan, Kengo Adachi, Andria Doty, Adolfo Ramirez-Zamora, Long Yan, Peter J. Gaskill, Wolfgang J. Streit, Michael S. Okun, Habibeh Khoshbouei
Phillip M. Mackie, Adithya Gopinath, Dominic M. Montas, Alyssa Nielsen, Aidan Smith, Rachel A. Nolan, Kaitlyn Runner, Stephanie M. Matt, John McNamee, Joshua E. Riklan, Kengo Adachi, Andria Doty, Adolfo Ramirez-Zamora, Long Yan, Peter J. Gaskill, Wolfgang J. Streit, Michael S. Okun, Habibeh Khoshbouei
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Research Article Inflammation Neuroscience

Functional characterization of the biogenic amine transporters on human macrophages

Abstract

Monocyte-derived macrophages (MDMs) are key players in tissue homeostasis and diseases regulated by a variety of signaling molecules. Recent literature has highlighted the ability for biogenic amines to regulate macrophage functions, but the mechanisms governing biogenic amine signaling in and around immune cells remain nebulous. In the CNS, biogenic amine transporters are regarded as the master regulators of neurotransmitter signaling. While we and others have shown that macrophages express these transporters, relatively little is known of their function in these cells. To address these knowledge gaps, we investigated the function of norepinephrine transporter (NET) and dopamine transporter (DAT) on human MDMs. We found that both NET and DAT are present and can uptake substrate from the extracellular space at baseline. Not only was DAT expressed in cultured MDMs, but it was also detected in a subset of intestinal macrophages in situ. Surprisingly, we discovered a NET-independent, DAT-mediated immunomodulatory mechanism in response to LPS. LPS induced reverse transport of dopamine through DAT, engaging an autocrine/paracrine signaling loop that regulated the macrophage response. Removing this signaling loop enhanced the proinflammatory response to LPS. Our data introduce a potential role for DAT in the regulation of innate immunity.

Authors

Phillip M. Mackie, Adithya Gopinath, Dominic M. Montas, Alyssa Nielsen, Aidan Smith, Rachel A. Nolan, Kaitlyn Runner, Stephanie M. Matt, John McNamee, Joshua E. Riklan, Kengo Adachi, Andria Doty, Adolfo Ramirez-Zamora, Long Yan, Peter J. Gaskill, Wolfgang J. Streit, Michael S. Okun, Habibeh Khoshbouei

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Figure 4

A subpopulation of human intestinal macrophages express DAT.

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A subpopulation of human intestinal macrophages express DAT. (A) A previ...
(A) A previously published single-cell RNA-Seq data set was procured from NCBI’s GEO using the search terms “gut” and “macrophage”. The data set was analyzed using the R package Seurat to cluster the cells based off the 10 most significant principal components and dimensionally reduce the data using t-distributed stochastic neighbor embedding (t-SNE) plots yielding 13 different clusters of cells (left). Relative expression of PTPRC (CD45) was overlaid on the t-SNE plot (right). (B) Relative expression of macrophage markers AIF1/IBA1, FGCGRA, IL-10, CD86, and SIGLEC1 in addition to expression of SLC6A3 (DAT) in each of the 13 clusters represented as violin plots indicate that cluster 7 was enriched for macrophage markers and contained some SLC6A3-expressing cells. (C) Representative 40× confocal microscopy images of healthy human colon tissue labeled for IBA1 (macrophages), MAP2 (neurons), DAPI (nuclei), and DAT. Images were collected from various anatomical parts of the gut wall including the lamina propria (left), muscularis (middle-left), submucosa containing gut-associated lymphoid tissue (middle-right), and submucosa containing neuronal ganglia (right). All areas contained IBA1+ cells (macrophages). (D) High-magnification images from each of the anatomical regions shown in C. Lamina propria contained IBA1+ cells and IBA1+ cells enveloping MAP2+ areas. Some but not all submucosal IBA1+ cells were weakly DAT+, whereas muscularis macrophages were DAT. Secondary-only negative controls shown as inset in the bottom of D. Images in C and D are from 3 independent experiments from 1 healthy human donor.