Increased Pyruvate Dehydrogenase Kinase 4 Expression in Lung Pericytes Is Associated with Reduced Endothelial-Pericyte Interactions and Small Vessel Loss in Pulmonary Arterial Hypertension

Yuan, Ke; Shao, Ning‐Yi; Hennigs, Jan K.; Discipulo, Marielle; Orcholski, Mark; Shamskhou, Elya; Richter, Alice; Hu, Xinqian; Wu, Joseph C.; Perez, Vinicio A. de Jesus

doi:10.1016/j.ajpath.2016.05.016

Cited by 37 publications

(31 citation statements)

References 70 publications

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“…On the opposite spectrum, excessive pericyte proliferation promotes disease progression in pulmonary artery hypertension (PAH), hypoxia-induced retinopathies (characterized by excessive neovascularization), and kidney and liver fibrosis (Rabinovitch, 2012;Ferland-McCollough et al, 2017;Dubrac et al, 2018). Studies using pericytes derived from PAH patients indicate that aberrant pericyte proliferation and migration is fueled by glycolysis, as these cells had elevated glycolytic capacity and lower mitochondrial activity (Rabinovitch, 2012;Yuan et al, 2016). Thus, repression of pericyte glycolytic activity could provide a useful therapeutic approach in this disease.…”

Section: Correcting the Functions Of Native Pericytesmentioning

confidence: 99%

“…Thus, repression of pericyte glycolytic activity could provide a useful therapeutic approach in this disease. Recently, siRNA-mediated knock-down of PDK4 (which suppresses mitochondrial activity in favor of glycolysis by inhibition of pyruvate dehydrogenase) was shown to increase PAH-derived pericyte mitochondrial function, lower their proliferation and improve their interactions with endothelial cells (Yuan et al, 2016), demonstrating promise of this conceptual approach. Similar strategies may be useful in regulating pericyte proliferation in chronic kidney disease or retinopathies, although these approaches remain to be tested.…”

Section: Correcting the Functions Of Native Pericytesmentioning

confidence: 99%

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Metabolic Coordination of Pericyte Phenotypes: Therapeutic Implications

Nwadozi

Rudnicki

Haas

2020

Front. Cell Dev. Biol.

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Pericytes are mural vascular cells found predominantly on the abluminal wall of capillaries, where they contribute to the maintenance of capillary structural integrity and vascular permeability. Generally quiescent cells in the adult, pericyte activation and proliferation occur during both physiological and pathological vascular and tissue remodeling. A considerable body of research indicates that pericytes possess attributes of a multipotent adult stem cell, as they are capable of self-renewal as well as commitment and differentiation into multiple lineages. However, pericytes also display phenotypic heterogeneity and recent studies indicate that lineage potential differs between pericyte subpopulations. While numerous microenvironmental cues and cell signaling pathways are known to regulate pericyte functions, the roles that metabolic pathways play in pericyte quiescence, self-renewal or differentiation have been given limited consideration to date. This review will summarize existing data regarding pericyte metabolism and will discuss the coupling of signal pathways to shifts in metabolic pathway preferences that ultimately regulate pericyte quiescence, self-renewal and trans-differentiation. The association between dysregulated metabolic processes and development of pericyte pathologies will be highlighted. Despite ongoing debate regarding pericyte classification and their functional capacity for trans-differentiation in vivo, pericytes are increasingly exploited as a cell therapy tool to promote tissue healing and regeneration. Ultimately, the efficacy of therapeutic approaches hinges on the capacity to effectively control/optimize the fate of the implanted pericytes. Thus, we will identify knowledge gaps that need to be addressed to more effectively harness the opportunity for therapeutic manipulation of pericytes to control pathological outcomes in tissue remodeling.

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Section: Correcting the Functions Of Native Pericytesmentioning

confidence: 99%

Section: Correcting the Functions Of Native Pericytesmentioning

confidence: 99%

Metabolic Coordination of Pericyte Phenotypes: Therapeutic Implications

Nwadozi

Rudnicki

Haas

2020

Front. Cell Dev. Biol.

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“…Several studies have been carried out in retinal pericytes in the context of diabetic retinopathy, but without exploring glucose metabolism in pericytes . The only work about pericyte metabolism performed to our knowledge demonstrated that lung pericytes from pulmonary arterial hypertension patients presented higher expression of PDK‐1, an inhibitor of PDH, than healthy pericytes . Therefore, it could be considered that normal pericytes display higher rates of OXPHOS than those of glycolysis.…”

Section: Metabolism Of Cells At the Tumor Microenvironmentmentioning

confidence: 99%

Metabolism within the tumor microenvironment and its implication on cancer progression: An ongoing therapeutic target

Ocaña

Martínez‐Poveda

Quesada

et al. 2018

Medicinal Research Reviews

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Since reprogramming energy metabolism is considered a new hallmark of cancer, tumor metabolism is again in the spotlight of cancer research. Many studies have been carried out and many possible therapies have been developed in the last years. However, tumor cells are not alone. A series of extracellular components and stromal cells, such as endothelial cells, cancer-associated fibroblasts, tumor-associated macrophages, and tumor-infiltrating T cells, surround tumor cells in the so-called tumor microenvironment (TME).Metabolic features of these cells are being studied in deep in order to find relationships between metabolism within the TME and tumor progression. Moreover, it cannot be forgotten that tumor growth is able to modulate host metabolism and homeostasis, so that TME is not the whole story. Importantly, the metabolic switch in cancer is just a consequence of the flexibility and adaptability of metabolism and should not be surprising. Treatments of cancer patients with

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“…54,58,59 Hypertension has been associated with both an increase and a decrease in pericyte numbers. [60][61][62][63][64] In mice with Ang-II-induced hypertension, the number of pericytes in cerebral arteries is decreased, leading to blood-brain barrier disruption. 60 In contrast, SHR show increased pericyte number within the brain microcirculation, specifically within the motor cortex and pons.…”

Section: Pericytesmentioning

confidence: 99%

Hypertension Induced Morphological and Physiological Changes in Cells of the Arterial Wall

Martinez‐Quinones

McCarthy

Watts

et al. 2018

American Journal of Hypertension

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Morphological and physiological changes in the vasculature have been described in the evolution and maintenance of hypertension. Hypertension-induced vascular dysfunction may present itself as a contributing, or consequential factor, to vascular remodeling caused by chronically elevated systemic arterial blood pressure. Changes in all vessel layers, from the endothelium to the perivascular adipose tissue (PVAT), have been described. This mini-review focuses on the current knowledge of the structure and function of the vessel layers, specifically muscular arteries: intima, media, adventitia, PVAT, and the cell types harbored within each vessel layer. The contributions of each cell type to vessel homeostasis and pathophysiological development of hypertension will be highlighted.

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Increased Pyruvate Dehydrogenase Kinase 4 Expression in Lung Pericytes Is Associated with Reduced Endothelial-Pericyte Interactions and Small Vessel Loss in Pulmonary Arterial Hypertension

Cited by 37 publications

References 70 publications

Metabolic Coordination of Pericyte Phenotypes: Therapeutic Implications

Metabolic Coordination of Pericyte Phenotypes: Therapeutic Implications

Metabolism within the tumor microenvironment and its implication on cancer progression: An ongoing therapeutic target

Hypertension Induced Morphological and Physiological Changes in Cells of the Arterial Wall

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