Respective roles of hyaluronidases 1 and 2 in endogenous hyaluronan turnover

Bourguignon, Virginie; Flamion, Bruno

doi:10.1096/fj.201500178r

Cited by 55 publications

(40 citation statements)

References 38 publications

(61 reference statements)

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“…However, the difference in plasma HA concentrations between diabetic WT mice and diabetic HYAL1 KO mice in our study was only moderate (+58% in the latter) and unlikely to explain the large difference in glycocalyx HA content during exposure of WT versus KO mice to hyperglycemia. Additionally, we have shown similar molecular size profiles of circulating HA in HYAL1 KO and WT mice (44). Finally, the hypothesis that higher baseline expression of SK3 would explain a thicker glycocalyx seems unlikely based on the known function of SK3.…”

Section: Lack Of Hyal1 Prevents Glomerular Barrier Dysfunctionsupporting

confidence: 52%

Hyaluronidase 1 Deficiency Preserves Endothelial Function and Glycocalyx Integrity in Early Streptozotocin-Induced Diabetes

et al. 2016

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Hyaluronic acid (HA) is a major component of the glycocalyx involved in the vascular wall and endothelial glomerular permeability barrier. Endocytosed hyaluronidase HYAL1 is known to degrade HA into small fragments in different cell types, including endothelial cells. In diabetes, the size and permeability of the glycocalyx are altered. In addition, patients with type 1 diabetes present increased plasma levels of both HA and HYAL1. To investigate the potential implication of HYAL1 in the development of diabetes-induced endothelium dysfunction, we measured endothelial markers, endothelium-dependent vasodilation, arteriolar glycocalyx size, and glomerular barrier properties in wild-type and HYAL1 knockout (KO) mice with or without streptozotocin (STZ)-induced diabetes. We observed that 4 weeks after STZ injections, the lack of HYAL1 1) prevents diabetes-induced increases in soluble P-selectin concentrations and limits the impact of the disease on endothelium-dependent hyperpolarization (EDH)-mediated vasorelaxation; 2) increases glycocalyx thickness and maintains glycocalyx structure and HA content during diabetes; and 3) prevents diabetes-induced glomerular barrier dysfunction assessed using the urinary albumin-to-creatinine ratio and urinary ratio of 70-to 40-kDa dextran. Our findings suggest that HYAL1 contributes to endothelial and glycocalyx dysfunction induced by diabetes. HYAL1 inhibitors could be explored as a new therapeutic approach to prevent vascular complications in diabetes.

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Section: Lack Of Hyal1 Prevents Glomerular Barrier Dysfunctionsupporting

confidence: 52%

Hyaluronidase 1 Deficiency Preserves Endothelial Function and Glycocalyx Integrity in Early Streptozotocin-Induced Diabetes

et al. 2016

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“…Nevertheless, low molecular weight HA seems to be involved in the inflammation process, inducing the production of cytokines and contributing to macrophage activation as well as angiogenesis [20], [21], [22]. Furthermore, high molecular weight HA was synthesized by HAS1 and HAS2, while HAS3 is involved in the synthesis of low molecular weight HA, and HA was degraded essentially by Hyl1 and Hyal2 [23], [24]. No alterations observed in the expression of the enzymes involved in the synthesis and degradation of HA validate the result, which showed no difference in the quantification of this glycosaminoglycan in both Peyronie’s and control tissues.…”

Section: Discussionmentioning

confidence: 99%

Extracellular matrix alterations in the Peyronie’s disease

Watanabe

Theodoro

Coelho

et al. 2017

Journal of Advanced Research

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“…No HYAL2 deficiency has been found in human. Hyal2 -deficient mice exhibit accumulation of extremely large HA molecules in tissues and in circulation, and this contributes to the development of chronic thrombotic microangiopathy (Onclinx et al, 2015) and mild craniofacial and vertebral abnormalities (Bourguignon and Flamion, 2016). Megakaryocyte-derived HYAL-2 causes HA degradation, which is needed for thrombopoiesis (Petrey et al, 2016).…”

Section: Hyaluronidases and Clinical Relevance And Applicationsmentioning

confidence: 99%

HYAL-2–WWOX–SMAD4 Signaling in Cell Death and Anticancer Response

Hsu

Chiang

Sze

et al. 2016

Front. Cell Dev. Biol.

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Hyaluronidase HYAL-2 is a membrane-anchored protein and also localizes, in part, in the lysosome. Recent study from animal models revealed that both HYAL-1 and HYAL-2 are essential for the metabolism of hyaluronan (HA). Hyal-2 deficiency is associated with chronic thrombotic microangiopathy with hemolytic anemia in mice due to over accumulation of high molecular size HA. HYAL-2 is essential for platelet generation. Membrane HYAL-2 degrades HA bound by co-receptor CD44. Also, in a non-canonical signal pathway, HYAL-2 serves as a receptor for transforming growth factor beta (TGF-β) to signal with downstream tumor suppressors WWOX and SMAD4 to control gene transcription. When SMAD4 responsive element is overly driven by the HYAL-2–WWOX–SMAD4 signaling complex, cell death occurs. When rats are subjected to traumatic brain injury, over accumulation of a HYAL-2–WWOX complex occurs in the nucleus to cause neuronal death. HA induces the signaling of HYAL-2–WWOX–SMAD4 and relocation of the signaling complex to the nucleus. If the signaling complex is overexpressed, bubbling cell death occurs in WWOX-expressing cells. In addition, a small synthetic peptide Zfra (zinc finger-like protein that regulates apoptosis) binds membrane HYAL-2 of non-T/non-B spleen HYAL-2+ CD3− CD19− Z lymphocytes and activates the cells to generate memory anticancer response against many types of cancer cells in vivo. Whether the HYAL-2–WWOX–SMAD4 signaling complex is involved is discussed. In this review and opinion article, we have updated the current knowledge of HA, HYAL-2 and WWOX, HYAL-2–WWOX–SMAD4 signaling, bubbling cell death, and Z cell activation for memory anticancer response.

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Respective roles of hyaluronidases 1 and 2 in endogenous hyaluronan turnover

Cited by 55 publications

References 38 publications

Hyaluronidase 1 Deficiency Preserves Endothelial Function and Glycocalyx Integrity in Early Streptozotocin-Induced Diabetes

Hyaluronidase 1 Deficiency Preserves Endothelial Function and Glycocalyx Integrity in Early Streptozotocin-Induced Diabetes

Extracellular matrix alterations in the Peyronie’s disease

HYAL-2–WWOX–SMAD4 Signaling in Cell Death and Anticancer Response

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