Monocyte-released HERV-K dUTPase engages TLR4 and MCAM causing endothelial mesenchymal transition
Shoichiro Otsuki, … , Maria E. Ariza, Marlene Rabinovitch
Shoichiro Otsuki, … , Maria E. Ariza, Marlene Rabinovitch
Published June 29, 2021
Citation Information: JCI Insight. 2021;6(15):e146416. https://doi.org/10.1172/jci.insight.146416.
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Research Article Inflammation Vascular biology

Monocyte-released HERV-K dUTPase engages TLR4 and MCAM causing endothelial mesenchymal transition

Abstract

We previously reported heightened expression of the human endogenous retroviral protein HERV-K deoxyuridine triphosphate nucleotidohydrolase (dUTPase) in circulating monocytes and pulmonary arterial (PA) adventitial macrophages of patients with PA hypertension (PAH). Furthermore, recombinant HERV-K dUTPase increased IL-6 in PA endothelial cells (PAECs) and caused pulmonary hypertension in rats. Here we show that monocytes overexpressing HERV-K dUTPase, as opposed to GFP, can release HERV-K dUTPase in extracellular vesicles (EVs) that cause pulmonary hypertension in mice in association with endothelial mesenchymal transition (EndMT) related to induction of SNAIL/SLUG and proinflammatory molecules IL-6 as well as VCAM1. In PAECs, HERV-K dUTPase requires TLR4-myeloid differentiation primary response–88 to increase IL-6 and SNAIL/SLUG, and HERV-K dUTPase interaction with melanoma cell adhesion molecule (MCAM) is necessary to upregulate VCAM1. TLR4 engagement induces p-p38 activation of NF-κB in addition to p-pSMAD3 required for SNAIL and pSTAT1 for IL-6. HERV-K dUTPase interaction with MCAM also induces p-p38 activation of NF-κB in addition to pERK1/2-activating transcription factor-2 (ATF2) to increase VCAM1. Thus in PAH, monocytes or macrophages can release HERV-K dUTPase in EVs, and HERV-K dUTPase can engage dual receptors and signaling pathways to subvert PAEC transcriptional machinery to induce EndMT and associated proinflammatory molecules.

Authors

Shoichiro Otsuki, Toshie Saito, Shalina Taylor, Dan Li, Jan-Renier Moonen, David P. Marciano, Rebecca L. Harper, Aiqin Cao, Lingli Wang, Maria E. Ariza, Marlene Rabinovitch

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Figure 1

Recombinant HERV-K dUTPase upregulates SNAIL and induces features of EndMT in PAECs.

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Recombinant HERV-K dUTPase upregulates SNAIL and induces features of End...
PAECs used at passage 3–8 were treated with 10 μg/mL HERV-K dUTPase (H.dUTP) or with PBS vehicle (Veh) daily for 3 days, then every 3 days up to 10 days. (A) Representative phase-contrast light microscopic images, showing the typical cobblestone morphology of control PAECs treated with vehicle versus an elongated spindle shape morphology of HERV-K dUTPase treated PAECs. Scale bar: 100 μm. (B) Immunofluorescence microscopy images showing elongated PAECs expressing αSMA (ACTA2) (red) (arrowhead) and greatly diminished VE-cadherin (CDH5) (green) (arrow) in the HERV-K dUTPase-treated PAECs. Scale bar: 50 μm. (C) Representative immunoblot and densitometric analysis of protein expression normalized to β-Actin or GAPDH, assessed at 10 days. Individual data points are shown, with n = 6, mean ± SEM. *P < 0.05; **P < 0.01 versus Veh, by unpaired Student’s t test. (D) Representative confocal images of a small PA from 1 of 2 patients with PAH stained for the EndMT transcription marker SNAIL/SLUG (red), the endothelial marker vWF (green), and DAPI (blue), showing SNAIL/SLUG localized to vWF positive PAECs in occlusive lesions (Control in Supplemental Figure 1C). Scale bar: 20 μm (10 μm in magnified panel, far right). (E) Representative confocal image of a large PA stained for SNAIL/SLUG (red), ACTA2 as a SMC marker (green), and DAPI (blue), showing SNAIL/SLUG localized to ACTA2-positive cells in an occlusive lesion from 1 of 2 patients with PAH. Scale bar: 50 μm (10 μm in magnified panel, far right).