Endothelial cell calpain as a critical modulator of angiogenesis

Zhang, Yixuan; Liu, Norika Mengchia; Wang, Yongchen; Youn, Ji Youn; Cai, Hua

doi:10.1016/j.bbadis.2017.03.021

Cited by 42 publications

(31 citation statements)

References 127 publications

(185 reference statements)

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“…However, it is noteworthy that Capn1 -deficient mice as well as EC-specific Capn2 -deficient mice did not exhibit the lethal vascular defects 23 , 26 ) ; thus, the impact of calpain-dependent angiogenesis on physiological vascular regulations is currently unclear. Please refer to an excellent review for further details of calpain-mediated physiological angiogenesis 86 ) .…”

Section: Contribution Of Calpain Proteolytic Systems To Degenerative mentioning

confidence: 99%

“…In this regard, growing evidence suggests that the calpain proteolytic systems, comprised of Ca 2+ -dependent intracellular proteases and a calpain endogenous inhibitor, critically contribute to degenerative vascular disorders. Calpains can be potentiated in the presence of pathophysiological stressors, such as inflammatory cytokines, growth factors, bioactive lipids and hypoxic stimulus 10 , 11 ) . As a result, dysregulation of these systems might be responsible for the vascular disorders noted above.…”

Section: Introductionmentioning

confidence: 99%

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Dysregulation of Calpain Proteolytic Systems Underlies Degenerative Vascular Disorders

Miyazaki

2018

J Atheroscler Thromb

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Chronic vascular diseases such as atherosclerosis, aneurysms, diabetic angiopathy/retinopathy as well as fibrotic and proliferative vascular diseases are generally complicated by the progression of degenerative insults, which are characterized by endothelial dysfunction, apoptotic/necrotic cell death in vascular/immune cells, remodeling of extracellular matrix or breakdown of elastic lamella. Increasing evidence suggests that dysfunctional calpain proteolytic systems and defective calpain protein metabolism in blood vessels contribute to degenerative disorders. In vascular endothelial cells, the overactivation of conventional calpains consisting of calpain-1 and -2 isozymes can lead to the disorganization of cell-cell junctions, dysfunction of nitric oxide synthase, sensitization of Janus kinase/signal transducer and activator of transcription cascades and depletion of prostaglandin I2, which contributes to degenerative disorders. In addition to endothelial cell dysfunctions, calpain overactivation results in inflammatory insults in macrophages and excessive fibrogenic/proliferative signaling in vascular smooth muscle cells. Moreover, calpain-6, a non-proteolytic unconventional calpain, is involved in the conversion of macrophages to a pro-atherogenic phenotype, leading to the pinocytotic deposition of low-density lipoprotein cholesterol in the cells. Here, we discuss the recent progress that has been made in our understanding of how calpain contributes to degenerative vascular disorders.

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Section: Contribution Of Calpain Proteolytic Systems To Degenerative mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Dysregulation of Calpain Proteolytic Systems Underlies Degenerative Vascular Disorders

Miyazaki

2018

J Atheroscler Thromb

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“…Calpains are calcium-dependent intracellular proteases that are activated by exogenous stressors such as physical stress, as well as by cytokines, growth factors, and hypoxia (11)(12)(13). In vascular endothelial cells (ECs), calpain systems are associated with sprouting angiogenesis (14,15). Our previous study showed that calpain proteolyzes suppressor of cytokine signaling 3 (an endogenous inhibitor of Janus kinase/signal transducers and activator of transcription signaling) in angiogenic ECs, sensitizing them to cytokine stimuli (16).…”

mentioning

confidence: 99%

Endothelial calpain systems orchestrate myofibroblast differentiation during wound healing

Miyazaki¹,

Haraguchi²,

Kim‐Kaneyama³

et al. 2018

FASEB j.

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The transformation of fibroblasts to myofibroblasts plays a major role in fibrogenic responses during dermal wound healing. We show a contribution of calpain systems (intracellular regulatory protease systems) in vascular endothelial cells (ECs) to myofibroblast differentiation in wound sites. Dermal wound healing experiments in mice found that calpastatin (an endogenous inhibitor of calpains) is enriched in preexisting vessels but not in newly formed capillaries. Transgenic overexpression of calpastatin in ECs delayed wound healing in mice as well as reducing the keratinocyte layer, extracellular matrix deposition, and myofibroblast accumulation in wound sites. EC and leukocyte markers, however, remain unchanged. Calpastatin overexpression reduced the expression of genes encoding platelet-derived growth factor-B and PDGF receptor-β (PDGFR-β). Topical application of platelet-derived growth factor-BB-containing ointment to wounds accelerated healing in control mice, but calpastatin overexpression prevented this acceleration. In cultured human dermal fibroblasts, α-smooth muscle actin and PDGFR-β were up-regulated by coculturing with ECs, but this action was inhibited by suppression of EC calpain activity. EC-driven transformation of mouse dermal fibroblasts was also suppressed by calpastatin overexpression in ECs. These results suggest that endothelial calpain systems influence PDGFR-β signaling in fibroblasts, EC-driven myofibroblast differentiation, and subsequent fibrogenic responses in wounds.-Miyazaki, T., Haraguchi, S., Kim-Kaneyama, J.-R., Miyazaki, A. Endothelial calpain systems orchestrate myofibroblast differentiation during wound healing.

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“…CAPN3 is involved in multiple important functions (Zhang et al, 2017) and has drawn great research interest because of its three specific regions (N-terminal, IS1 and IS2) (Ono et al, 2016). For example, defects IS1/2 in CAPN3 lead to limb girdle muscular dystrophy type 2A (LGMD2A) symptoms and other disease (Beckmann and Spencer, 2008).…”

Section: Discussionmentioning

confidence: 99%

“…Calpains are Ca 2+ -dependent intracellular cysteine proteases that are involved in cell motility (Glading et al, 2002), and apoptosis regulation (Liu et al, 2004), muscle atrophy (Richard et al, 1995), myoblast fusion (Honda et al, 2008), and muscle growth and develop-ment (Sultan et al, 2000;Zhang et al, 2009). To date, 15 isoforms have been identified in humans (Sorimachi and Ono, 2012), and in vertebrates, calpain 1 and calpain 2 have been widely studied among calpain isoforms (Macqueen et al, 2010;Zhang et al, 2017). Among the calpain family members, calpain 3 (CAPN3, previously named p94) is particularly interesting, because in humans, limb-girdle muscular dystrophy type 2A (LGMDA2) is mainly caused by lossof-function mutations of CAPN3 (Richard et al, 1995).…”

Section: Introductionmentioning

confidence: 99%

Characterization of the Goose <i>CAPN3</i> Gene and its Expression Pattern in Muscle Tissues of Sichuan White Geese at Different Growth Stages

Zhang

Zou

et al. 2018

J. Poult. Sci.

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Calpain 3 (CAPN3), also known as p94, is associated with multiple production traits in domestic animals. However, the molecular characteristics of the CAPN3 gene and its expression profile in goose tissues have not been reported. In this study, CAPN3 cDNA of the Sichuan white goose was cloned, sequenced, and characterized. The CAPN3 full-length cDNA sequence consists of a 2,316-bp coding sequence (CDS) that encodes 771 amino acids with a molecular mass of 89,019 kDa. The protein was predicted to have no signal peptide, but several N-glycosylation, Oglycosylation, and phosphorylation sites. The secondary structure of CAPN3 was predicted to be 38.65% α-helical. Sequence alignment showed that CAPN3 of Sichuan white goose shared more than 90% amino acid sequence similarity with those of Japanese quail, turkey, helmeted guineafowl, duck, pigeon, and chicken. Phylogenetic tree analysis showed that goose CAPN3 has a close genetic relationship and small evolutionary distance with those of the birds. qRT-PCR analysis showed that in 15-day-old animals, the expression level of CAPN3 was significantly higher in breast muscle than in thigh tissues. These results serve as a foundation for further investigations of the function of the goose CAPN3 gene.

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Endothelial cell calpain as a critical modulator of angiogenesis

Cited by 42 publications

References 127 publications

Dysregulation of Calpain Proteolytic Systems Underlies Degenerative Vascular Disorders

Dysregulation of Calpain Proteolytic Systems Underlies Degenerative Vascular Disorders

Endothelial calpain systems orchestrate myofibroblast differentiation during wound healing

Characterization of the Goose <i>CAPN3</i> Gene and its Expression Pattern in Muscle Tissues of Sichuan White Geese at Different Growth Stages

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