Shear stress associated with cardiopulmonary bypass induces expression of inflammatory cytokines and necroptosis in monocytes
Lan N. Tu, … , Peter Pastuzsko, Vishal Nigam
Lan N. Tu, … , Peter Pastuzsko, Vishal Nigam
Published November 24, 2020
Citation Information: JCI Insight. 2021;6(1):e141341. https://doi.org/10.1172/jci.insight.141341.
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Research Article Cardiology Inflammation

Shear stress associated with cardiopulmonary bypass induces expression of inflammatory cytokines and necroptosis in monocytes

Abstract

Cardiopulmonary bypass (CPB) is required during most cardiac surgeries. CBP drives systemic inflammation and multiorgan dysfunction that is especially severe in neonatal patients. Limited understanding of molecular mechanisms underlying CPB-associated inflammation presents a significant barrier to improve clinical outcomes. To better understand these clinical issues, we performed mRNA sequencing on total circulating leukocytes from neonatal patients undergoing CPB. Our data identify myeloid cells, particularly monocytes, as the major cell type driving transcriptional responses to CPB. Furthermore, IL-8 and TNF-α were inflammatory cytokines robustly upregulated in leukocytes from both patients and piglets exposed to CPB. To delineate the molecular mechanism, we exposed THP-1 human monocytic cells to CPB-like conditions, including artificial surfaces, high shear stress, and cooling/rewarming. Shear stress was found to drive cytokine upregulation via calcium-dependent signaling pathways. We also observed that a subpopulation of THP-1 cells died via TNF-α–mediated necroptosis, which we hypothesize contributes to post-CPB inflammation. Our study identifies a shear stress–modulated molecular mechanism that drives systemic inflammation in pediatric CPB patients. These are also the first data to our knowledge to demonstrate that shear stress causes necroptosis. Finally, we observe that calcium and TNF-α signaling are potentially novel targets to ameliorate post-CPB inflammation.

Authors

Lan N. Tu, Lance Hsieh, Masaki Kajimoto, Kevin Charette, Nataliya Kibiryeva, Adriana Forero, Sarah Hampson, Jennifer A. Marshall, James O’Brien, Marta Scatena, Michael A. Portman, Ram Savan, Chris Benner, Alberto Aliseda, Muhammad Nuri, Douglas Bittel, Peter Pastuzsko, Vishal Nigam

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Figure 6

CPB induces cell death by both apoptosis and necroptosis.

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CPB induces cell death by both apoptosis and necroptosis. (A) Representa...
(A) Representative image of sheared THP-1 cells after 24 hours of recovery showed dead cells with morphology characteristic of both apoptosis (blue arrowheads) and necrosis (red arrowheads). (B) Sheared THP-1 cells were stained with annexin V and propidium iodide and were analyzed by flow cytometry. There was accumulation of dead cells in the Q2 quadrant after 24 hours compared with the static control. (C) The percentage of live cells (Q4) significantly reduced at 24 hours after shear, while the percentage of early apoptotic cells (Q3) or necrotic cells (Q2) significantly increased at 24 hours after shear (n = 3–4 replicates/group). (D) Treatment of sheared THP-1 cells with the necroptosis inhibitors Nec1s and GSK872 significantly increased the percentage of live cells (Q4) and early apoptotic cells (Q3), while significantly reducing the percentage of necrotic cells (Q2) (n = 3 replicates/group). (E and F) Western blot showed increased levels of necroptotic markers p-RIPK1, p-RIPK3, and p-MLKL (E) and apoptotic markers cleaved caspase-3 and cleaved PARP (F) in sheared THP-1 cells over time. *P < 0.05, 1-way ANOVA and post hoc Dunnett’s test.