John C Chappell

Overview

Explore the profile of John C Chappell including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 34

Citations 791

Followers 0

Related Specialties

Biology

Cardiology & Vascular Diseases

Cell Biology

Top 10 Co-Authors

Victoria L Bautch

Laura Beth Payne

Jordan Darden

Huaning Zhao

Richard J Price

Hanaa Abdelazim

Ji Song

Shayn M Peirce

Meghan W Sedovy

Feilim Mac Gabhann

Published In

Microcirculation

Arterioscler Thromb Vasc Biol

bioRxiv

Front Physiol

J Biol Eng

Affiliations

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Recent Articles

Optimized Enrichment of Murine Blood-Brain Barrier Vessels with a Critical Focus on Network Hierarchy in Post-Collection Analysis

Abdelazim H, Barnes A, Stupin J, Hasson R, Munoz-Ballester C, Young K, et al.

bioRxiv . 2024 Sep; PMID: 39345630

Highlights: We optimized a protocol for the enrichment of murine capillaries using density gradient centrifugation and follow-on filtration.We offer an approach to analyzing post-collection cerebrovascular fragments and cells with respect...

A Soluble Platelet-Derived Growth Factor Receptor-β Originates via Pre-mRNA Splicing in the Healthy Brain and Is Upregulated during Hypoxia and Aging

Payne L, Abdelazim H, Hoque M, Barnes A, Mironovova Z, Willi C, et al.

Biomolecules . 2023 May; 13(4). PMID: 37189457

The platelet-derived growth factor-BB (PDGF-BB) pathway provides critical regulation of cerebrovascular pericytes, orchestrating their investment and retention within the brain microcirculation. Dysregulated PDGF Receptor-beta (PDGFRβ) signaling can lead to pericyte...

A Soluble Platelet-Derived Growth Factor Receptor-β Originates via Pre-mRNA Splicing in the Healthy Brain and is Differentially Regulated during Hypoxia and Aging

Payne L, Abdelazim H, Hoque M, Barnes A, Mironovova Z, Willi C, et al.

bioRxiv . 2023 Feb; PMID: 36778261

Pericyte heterogeneity identified by 3D ultrastructural analysis of the microvessel wall

Abdelazim H, Payne L, Nolan K, Paralkar K, Bradley V, Kanodia R, et al.

Front Physiol . 2023 Jan; 13:1016382. PMID: 36589416

Confident identification of pericytes (PCs) remains an obstacle in the field, as a single molecular marker for these unique perivascular cells remains elusive. Adding to this challenge is the recent...

Evaluating cell viability, capillary perfusion, and collateral tortuosity in an ex vivo mouse intestine fluidics model

Willi C, Abdelazim H, Chappell J

Front Bioeng Biotechnol . 2022 Dec; 10:1008481. PMID: 36568288

Numerous disease conditions involve the sudden or progressive loss of blood flow. Perfusion restoration is vital for returning affected organs to full health. While a range of clinical interventions can...

Connexin 43 across the Vasculature: Gap Junctions and Beyond

Sedovy M, Leng X, Leaf M, Iqbal F, Payne L, Chappell J, et al.

J Vasc Res . 2022 Dec; 60(2):101-113. PMID: 36513042

Connexin 43 (Cx43) is essential to the function of the vasculature. Cx43 proteins form gap junctions that allow for the exchange of ions and molecules between vascular cells to facilitate...

Pericyte Progenitor Coupling to the Emerging Endothelium During Vasculogenesis via Connexin 43

Payne L, Tewari B, Dunkenberger L, Bond S, Savelli A, Darden J, et al.

Arterioscler Thromb Vasc Biol . 2022 Feb; 42(4):e96-e114. PMID: 35139658

Background: Vascular pericytes stabilize blood vessels and contribute to their maturation, while playing other key roles in microvascular function. Nevertheless, relatively little is known about involvement of their precursors in...

Pericytes in Vascular Development

Payne L, Hoque M, Houk C, Darden J, Chappell J

Curr Tissue Microenviron Rep . 2021 Mar; 1(3):143-154. PMID: 33748774

Purpose Of Review: Pericytes are essential components of capillaries in many tissues and organs, contributing to vessel stability and integrity, with additional contributions to microvascular function still being discovered. We...

Pericyte migration and proliferation are tightly synchronized to endothelial cell sprouting dynamics

Payne L, Darden J, Suarez-Martinez A, Zhao H, Hendricks A, Hartland C, et al.

Integr Biol (Camb) . 2021 Jan; 13(2):31-43. PMID: 33515222

Pericytes are critical for microvascular stability and maintenance, among other important physiological functions, yet their involvement in vessel formation processes remains poorly understood. To gain insight into pericyte behaviors during...

10.

The cerebral microvasculature: Basic and clinical perspectives on stroke and glioma

Hoque M, Abdelazim H, Jenkins-Houk C, Wright D, Patel B, Chappell J

Microcirculation . 2020 Nov; 28(3):e12671. PMID: 33171539

Microvascular networks are vital components of the cardiovascular system, performing many key roles in maintaining the health and homeostasis of the tissues and organs in which they develop. As discussed...