Biodistribution and Efficacy of Targeted Pulmonary Delivery of a Protein Kinase C-<i>δ</i> Inhibitory Peptide: Impact on Indirect Lung Injury

Mondrinos, Mark J.; Knight, Linda C.; Kennedy, Paul A.; Wu, Jichuan; Kauffman, Matthew J.; Baker, Sandy; Wolfson, Marla R.; Kilpatrick, Laurie E.

doi:10.1124/jpet.115.224832

Cited by 13 publications

(43 citation statements)

References 73 publications

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“…Previously, our group has introduced a novel therapeutic paradigm that uses a peptide antagonist to inhibit selectively PKCd activity and neutrophilendothelial interactions to protect vascular endothelial integrity and attenuate sepsis-induced tissue damage [6][7][8]. The role of PKCd in rodent sepsis models and in neutrophils or endothelial is shown to be stimulus dependent and organ specific [7,8,36,37]. The role of PKCd in rodent sepsis models and in neutrophils or endothelial is shown to be stimulus dependent and organ specific [7,8,36,37].…”

Section: Discussionmentioning

confidence: 99%

“…A key step in neutrophil-mediated tissue damage is the migration of activated neutrophils across the vascular endothelium [4,5]. Our previous studies indicated a role for PKCd in regulating neutrophil migration but did not address specific mechanisms or identify specific steps by which PKCd impacts the interaction of neutrophils and endothelial cells during inflammation [6][7][8]. Our previous studies indicated a role for PKCd in regulating neutrophil migration but did not address specific mechanisms or identify specific steps by which PKCd impacts the interaction of neutrophils and endothelial cells during inflammation [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

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A novel microfluidic assay reveals a key role for protein kinase C δ in regulating human neutrophil–endothelium interaction

Soroush

Zhang

King

et al. 2016

Journal of Leukocyte Biology

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A key step in neutrophil-mediated tissue damage is the migration of activated neutrophils across the vascular endothelium. Previously, we identified protein kinase C δ as a critical regulator of neutrophil migration in sepsis but did not identify specific steps in migration. In this study, we used our novel biomimetic microfluidic assay to delineate systematically the mechanism by which protein kinase C δ regulates individual steps in human neutrophil-endothelial interaction during inflammation. The biomimetic microfluidic assay includes a network of vascular channels, produced from in vivo images connected to a tissue compartment through a porous barrier. HUVECs cultured in vascular channels formed a complete lumen under physiologic shear flow. HUVECs were pretreated with TNF-α ± a protein kinase C δ inhibitor, and the tissue compartment was filled with a chemoattractant (fMLP or IL-8). Under physiologic shear flow, the role of protein kinase C δ on spatial and temporal neutrophil adherence/migration was quantified. Protein kinase C δ inhibition significantly reduced neutrophil adhesion in response to fMLP and IL-8 only under low shear rate and near bifurcations. Protein kinase C δ inhibition also decreased adherence to nonactivated HUVECs in response to fMLP or IL-8. Protein kinase C δ inhibition reduced neutrophil migration into the tissue compartment in response to fMLP and to a lesser degree, to IL-8. Antibody-coated microparticles demonstrated that protein kinase C δ inhibition down-regulated E-selectin and ICAM-1 but not VCAM-1 expression. With the use of a physiologically relevant in vitro model system, we demonstrate that protein kinase C δ plays an important role in the regulation of neutrophil adherence/migration during inflammation and identifies key steps regulated by protein kinase C δ in neutrophil-endothelial interactions.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A novel microfluidic assay reveals a key role for protein kinase C δ in regulating human neutrophil–endothelium interaction

Soroush

Zhang

King

et al. 2016

Journal of Leukocyte Biology

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“…In this study, we use bMFA to investigate whether mouse neutrophil‐endothelial cell interactions and microvascular endothelium barrier characteristics, as well as response to a novel anti‐inflammatory agent, are predictive of human cell responses. Previously, we demonstrated that protein kinase C‐delta (PKCδ) is an important regulator of neutrophil‐endothelial cells interaction during inflammation and that a PKCδ‐TAT peptide inhibitor (PKCδ‐ i ) may serve as a potential novel anti‐inflammatory therapeutic . In this study, we tested the hypothesis that mouse and human cells do not respond similarly to activation and investigated whether the response of mouse cells to an anti‐inflammatory agent is likely to provide data that would be predictive of its efficacy in human cells.…”

Section: Introductionmentioning

confidence: 99%

Neutrophil‐endothelial interactions of murine cells is not a good predictor of their interactions in human cells

et al. 2019

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Abbreviations: bMFA, biomimetic microfluidic assay; BSA, bovine serum albumin; CFD, computational fluid dynamics; CFDA/SE, carboxyfluorescein diacetate succinimidyl ester; ELISA, enzyme-linked immunosorbent assay; fMLP, N-formylmethionyl-leucyl-phenylalanine; GIS, geographic information system; HBSS, Hank's Balanced Salt Solution; HUVEC, human umbilical vein endothelial cell; ICAM-1, intercellular adhesion molecule 1; ICAM-2, intercellular adhesion molecule 2; JAM-C, junctional adhesion molecule C; PKCδ, protein kinase C-delta; PKCδ-i, protein kinase C-delta TAT peptide inhibitor; TEER, trans endothelial electrical resistance; TNF-α, tumor necrosis factor α; VCAM-1, vascular cell adhesion protein 1. AbstractAll drugs recently developed in rodent models to treat inflammatory disease have failed in clinical trials. We therefore used our novel biomimetic microfluidic assay (bMFA) to determine whether the response of murine cells to inflammatory activation or anti-inflammatory treatment is predictive of the response in human cells.Under physiologically relevant flow conditions, permeability and transendothelial electrical resistance (TEER) of human or mouse lung microvascular endothelial cells (HLMVEC or MLMVEC), and neutrophil-endothelial cell interaction was measured.The differential impact of a protein kinase C-delta TAT peptide inhibitor (PKCδ-i) was also quantified. Permeability of HLMVEC and MLMVEC was similar under control conditions but tumor necrosis factor α (TNF-α) and PKCδ-i had a significantly higher impact on permeability of HLMVEC. TEER across HLMVEC was significantly higher than MLMVEC, but PKCδ-i returned TEER to background levels only in human cells. The kinetics of N-formylmethionyl-leucyl-phenylalanine (fMLP)-mediated neutrophil migration was significantly different between the two species and PKCδ-i was significantly more effective in attenuating human neutrophil migration. However, human and mouse neutrophil adhesion patterns to microvascular endothelium were not significantly different. Surprisingly, while intercellular adhesion molecule 1 (ICAM-1) was significantly upregulated on activated HLMVEC, it was not significantly upregulated on activated MLMVEC. Responses to activation and anti-inflammatory treatment in mice may not always be predictive of their response in humans. K E Y W O R D Sbiomimetic, endothelial cells, inflammation, microfluidics, mouse model 2692 | SOROUSH et al.

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“…Sepsis was induced by the cecal ligation and puncture (CLP) method as described previously . Sham controls underwent a laparotomy without cecal ligation or puncture.…”

Section: Methodsmentioning

confidence: 99%

“…At 24 post‐surgery, rats were euthanized and the lungs were gravity‐fixed with 10% neutral buffered formalin instillation into the airways; the trachea was then tied off to maintain inflation during fixation. After fixation, lungs were paraffin‐embedded, sectioned (5‐10 μm thick), and stained with hematoxylin‐eosin (H&E) as we described previously …”

Section: Methodsmentioning

confidence: 99%

Protein kinase C‐delta inhibition is organ‐protective, enhances pathogen clearance, and improves survival in sepsis

et al. 2019

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Sepsis is a leading cause of morbidity and mortality in intensive care units. Previously, we identified Protein Kinase C-delta (PKCδ) as an important regulator of the inflammatory response in sepsis. An important issue in development of anti-inflammatory therapeutics is the risk of immunosuppression and inability to effectively clear pathogens. In this study, we investigated whether PKCδ inhibition prevented organ dysfunction and improved survival without compromising pathogen clearance. SpragueDawley rats underwent sham surgery or cecal ligation and puncture (CLP) to induce sepsis. Post-surgery, PBS or a PKCδ inhibitor (200µg/kg) was administered intra-tracheally (IT). At 24 hours post-CLP, there was evidence of lung and kidney dysfunction. PKCδ inhibition decreased leukocyte influx in these organs, decreased endothelial permeability, improved gas exchange, and reduced blood urea nitrogen/ creatinine ratios indicating organ protection. PKCδ inhibition significantly decreased bacterial levels in the peritoneal cavity, spleen and blood but did not exhibit direct bactericidal properties. Peritoneal chemokine levels, neutrophil numbers, or macrophage phenotypes were not altered by PKCδ inhibition. Peritoneal macrophages isolated from PKCδ inhibitor-treated septic rats demonstrated increased bacterial phagocytosis. Importantly, PKCδ inhibition increased survival. Thus, PKCδ inhibition improved survival and improved survival was associated with increased phagocytic activity, enhanced pathogen clearance, and decreased organ injury. K E Y W O R D Scecal ligation and puncture, inflammation, macrophages, organ injury, phagocytosis 2498 |

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Biodistribution and Efficacy of Targeted Pulmonary Delivery of a Protein Kinase C-δ Inhibitory Peptide: Impact on Indirect Lung Injury

Cited by 13 publications

References 73 publications

A novel microfluidic assay reveals a key role for protein kinase C δ in regulating human neutrophil–endothelium interaction

A novel microfluidic assay reveals a key role for protein kinase C δ in regulating human neutrophil–endothelium interaction

Neutrophil‐endothelial interactions of murine cells is not a good predictor of their interactions in human cells

Protein kinase C‐delta inhibition is organ‐protective, enhances pathogen clearance, and improves survival in sepsis

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