EC:3.2.1.36 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.36 (hyaluronidase)
4,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hyaluronic acid (HA) is a component of the extracellular matrix (ECM) that exists as a high molecular weight polymer composed of alternating disaccharides, D-glucuronic acid and N-acetyl D-glucosamine. The interaction of hyaluronidase with HA results in the disruption of basement membrane integrity and produces an angiogenic response that has been implicated in tumor invasiveness and metastasis. Although hyaluronidase is present in several neoplasms, levels of hyaluronidase expression in breast cancer are not known. This investigation defines the correlation of elevated levels of hyaluronidase with breast adenocarcinoma invasiveness. Utilizing RT-PCR, RNA was extracted from paraffin embedded tissues (n=6) of patients diagnosed with fibrocystic breast changes, ductal carcinoma in situ (DCIS), and invasive adenocarcinoma. After constructing cDNA primers for base pairs 504 and 759 of the PH-20 gene (which is homologous to the hyaluronidase gene), PCR was performed and the products were visualized with ethidium bromide using gel electrophoresis. Invasive breast adenocarcinoma had a significantly higher level of hyaluronidase expression compared to other breast tissue samples; (32+/-15 vs. 8+/-3; p<0.03). Elevated levels of hyaluronidase correlated with invasive breast adenocarcinoma. Our data suggests that elevated levels of hyaluronidase are associated with breast adenocarcinoma invasive potential. Hyaluronidase may play an integral role in breast cancer invasion and metastasis.
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PMID:Association of hyaluronidase and breast adenocarcinoma invasiveness. 1020

The affinity of MCF7 breast cancer cells to hyaluronan (HA) was investigated in an in vitro model. The cells form a tightly adhering monolayer on native HA with a concentration of 5 mg/ml. On native HA at higher concentrations the cells reduce their adhesion to the substrate in favor of increased intercellular bonds, resulting in a cluster-like aggregate that tends to detach from the substrate. Aggregate formation is accomplished after 12 h incubation. The phenomenon is independent of the CD44 receptor. Degradation of native HA by hyaluronidase abolishes aggregate formation even at high HA concentrations in favor of formation of a firmly adhering monolayer. This model may help to understand tumor spread on HA tissue structures and may explain therapy successes with hyaluronidase in tumor patients.
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PMID:The affinity of MCF7 breast cancer cells to hyaluronan substrates of different molecular weight and concentrations in an in vitro model. 1102 7

A hyaluronan-rich environment often correlate with tumor progression. and may be one mechanism for the invasive behavior of malignancies. Eradication of hyaluronan by hyaluronidase administration could reduce tumor aggressiveness and would provide, therefore, a new anti-cancer strategy. Hyaluronan interaction with its CD44 receptor and the resulting signal transduction events may be among the mechanisms for hyaluronan-associated cancer progression. We have shown previously that hyaluronidase treatment of breast cancer cells in vitro not only eradicates hyaluronan but also modifies expression of CD44 variant exons of tumor cells. We now determine if such effects occur in vivo and if it is accompanied by tumor regression. SCID mice bearing xenografts of human breast carcinomas were given intravenous hyaluronidase. Tumor volumes decreased 50% in 4 days. Tumor sections showed decreased hyaluronan. Intensity of staining for CD44s was not affected, whereas staining for specific CD44 variant exon isoforms was greatly reduced in residual tumors. Necrosis was not evident. Hyaluronidase, used previously as an adjunct in cancer treatment, presumably to enhance penetration of chemotherapeutic drugs, may itself have intrinsic anti-cancer activity. Removing peritumor hyaluronan appears to cause an irreversible change in tumor metabolism. Continuous hyaluronan binding to CD44 variant exon isoforms may also be required to stabilize inherently unstable isoforms that participate perhaps in tumor progression. Further investigation is required to confirm a cause and effect relationship between loss of hyaluronan, changes in CD44 variant exon expression and tumor reduction. If confirmed, hyaluronidase may provide a new class of anti-cancer therapeutics and one without toxic side effects.
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PMID:Hyaluronidase reduces human breast cancer xenografts in SCID mice. 1238 18

We have explored CD44 (a hyaluronan (HA) receptor) interaction with a Na(+)-H(+) exchanger (NHE1) and hyaluronidase-2 (Hyal-2) during HA-induced cellular signaling in human breast tumor cells (MDA-MB-231 cell line). Immunological analyses demonstrate that CD44s (standard form) and two signaling molecules (NHE1 and Hyal-2) are closely associated in a complex in MDA-MB-231 cells. These three proteins are also significantly enriched in cholesterol and ganglioside-containing lipid rafts, characterized as caveolin and flotillin-rich plasma membrane microdomains. The binding of HA to CD44 activates Na(+)-H(+) exchange activity which, in turn, promotes intracellular acidification and creates an acidic extracellular matrix environment. This leads to Hyal-2-mediated HA catabolism, HA modification, and cysteine proteinase (cathepsin B) activation resulting in breast tumor cell invasion. In addition, we have observed the following: (i) HA/CD44-activated Rho kinase (ROK) mediates NHE1 phosphorylation and activity, and (ii) inhibition of ROK or NHE1 activity (by treating cells with a ROK inhibitor, Y27632, or NHE1 blocker, S-(N-ethyl-N-isopropyl) amiloride, respectively) blocks NHE1 phosphorylation/Na(+)-H(+) exchange activity, reduces intracellular acidification, eliminates the acidic environment in the extracellular matrix, and suppresses breast tumor-specific behaviors (e.g. Hyal-2-mediated HA modification, cathepsin B activation, and tumor cell invasion). Finally, down-regulation of CD44 or Hyal-2 expression (by treating cells with CD44 or Hyal-2-specific small interfering RNAs) not only inhibits HA-mediated CD44 signaling (e.g. ROK-mediated Na(+)-H(+) exchanger reaction and cellular pH changes) but also impairs oncogenic events (e.g. Hyal-2 activity, hyaluronan modification, cathepsin B activation, and tumor cell invasion). Taken together, our results suggest that CD44 interaction with a ROK-activated NHE1 (a Na(+)-H(+) exchanger) in cholesterol/ganglioside-containing lipid rafts plays a pivotal role in promoting intracellular/extracellular acidification required for Hyal-2 and cysteine proteinase-mediated matrix degradation and breast cancer progression.
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PMID:CD44 interaction with Na+-H+ exchanger (NHE1) creates acidic microenvironments leading to hyaluronidase-2 and cathepsin B activation and breast tumor cell invasion. 1509 May 45

The aim of this current study was to examine the significance of CD44 expression in mediating cancer cell adhesion to human bone marrow endothelial cell(s) (hBMEC). Differential CD44 expression on two metastatic prostate cancer cell lines, PC3 (CD44 +ve) and DU145 (CD44 -ve) and four breast cancer cell lines was confirmed by immunoblotting and immunocytochemistry. In cell adhesion assays, PC3 but not DU145 cells demonstrated a rapid adhesion to hBMECs. Treatment of PC3 cells with a neutralizing antibody against CD44 standard (CD44s) and CD44 splice variants decreased PC3 cell adhesion to hBMECs. Similarly, depletion of CD44 expression using RNA interference decreased the ability of PC3 cells and two CD44 +ve breast cancer cell lines (MDA-MB-231 and MDA-MB-157) to bind FITC-conjugated hyaluronan (FITC-HA) and to adhere to hBMECs. In contrast, transfection of DU145 cells or the T47D and MCF-7 breast cancer cell lines to express CD44s increased cell surface binding of FITC-HA and cell adherence to hBMECs. Treatment of PC3 and MDA-MD-231 cells but not hBMECs with hyaluronidase attenuated cell adhesion, suggesting that cell surface expression of CD44 on prostate and breast cancer cells may promote the retention of a HA coat that facilitates their initial arrest on bone marrow endothelium.
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PMID:CD44 potentiates the adherence of metastatic prostate and breast cancer cells to bone marrow endothelial cells. 1571 75

The concentration and molecular weight of hyaluronan often dictates its physiological function. Consequently full characterisation of the anabolic products and turnover rates of HA could facilitate understanding of the role that HA metabolism plays in disease processes. In order to achieve this it is necessary to interrupt the dynamic balance between concurrent HA synthesis and degradation, achievable through the inhibition of the hyaluronidases, a group of enzymes which degrade HA. The sulphated polysaccharide, dextran sulphate has been demonstrated to competitively inhibit testicular hyaluronidase in a non-biological system, but its application to in vitro biological systems had yet to be developed and evaluated. This study determined the inhibitory concentrations of dextran sulphate against both testicular and Streptomyces hyaluronidase in a cell-free and breast cancer model followed by characterisation of the effect that hyaluronidase inhibition exerted on HA synthesis and degradation. The IC(100) of dextran sulphate for both hyaluronidases in a cell-free and biological system was determined to be >or=400 microg/ml. At concentrations up to 10 mg/ml the dextran sulphate did not effect breast cancer cell proliferation or morphology, while at 400 microg/ml HA degradation was totally inhibited, enabling an accurate quantitation of HA production as well as characterisation of the cell-associated and liberated HA. FACS quantitation of the HA receptor CD44, HA synthase and the hyaluronidases HYAL 1 and HYAL 2 demonstrated that dextran sulphate down-regulated CD44 and HA synthase while upregulating the hyaluronidases. These results suggest dynamic feedback signalling and complex mechanisms occur in the net deposition of HA in vivo.
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PMID:Inhibition of hyaluronan degradation by dextran sulphate facilitates characterisation of hyaluronan synthesis: an in vitro and in vivo study. 1531 79

Nodular mucinosis is an extremely rare breast lesion. This benign mass usually presents clinically as a poorly circumscribed, subareolar, myxoid mass in young female patients. We report a case of this rare breast lesion and discuss its clinical, radiologic, and histopathologic features. A 21-year-old white woman presented with a mass in the left breast of 6 months' duration. She had never been pregnant or had any history of breast feeding, surgery, trauma, or use of exogenous hormones or a family history of breast cancer. Clinical breast examination demonstrated a 1 cm "rubbery" mass directly under and continuous with the left nipple. The skin that covered the mass had an edematous and irregular appearance without erythema or drainage from the nipple. Ultrasonography demonstrated a 1-cm, nonintraductal, circumscribed, homogeneous, isoechoic mass that was continuous or part of the base of the left nipple. The mass was smooth, with a thin echogenic rim. Doppler flow showed some vascularity. These findings suggested a benign breast lesion, including a fibroadenoma or nipple adenoma. Despite reassurance, the patient desired excision of the lesion. Gross examination revealed a nodular, rubbery-firm, ovoid, pink, polypoid mass that measured 1.5 x 0.9 x 0.8 cm. Microscopic examination showed a well-circumscribed tumor with a nodular appearance, which consisted of an accumulation of pink myxoid tissue and contained spindle cells with bland-appearing nuclei, no mitosis, and mild cellularity. The pink myxoid tissue was stained with Hale colloidal iron and Alcian blue. The Alcian blue stain was removed by pretreatment with hyaluronidase. The spindle cells stained with vimentin and smooth muscle actin; however, they did not express smooth muscle myosin or cytokeratin. This report presents and discusses the pathologic, ultrasonographic, and clinical findings of this rare entity.
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PMID:Nodular mucinosis of the breast: a case report with pathologic, ultrasonographic, and clinical findings and review of the literature. 1573 51

The progression of several cancers is correlated with the increased synthesis of the glycosaminoglycan, hyaluronan. Hyaluronan is synthesized at the plasma membrane by various isoforms of hyaluronan synthases (HAS). The importance of HAS2 expression in highly invasive breast cancer was characterized by the antisense inhibition of HAS2 (ASHAS2). The effect of HAS2 inhibition on cell proliferation, migration, hyaluronan metabolism, and receptor status was characterized in vitro, whereas the effect on tumorigenicity and metastasis was established in vivo. HAS2 inhibition resulted in a 24-hour lag in proliferation that was concomitant to transient arrest of 79% of the cell population in G0-G1. Inhibition of HAS2 did not alter the expression of the other HAS isoforms, whereas hyaluronidase (HYAL2) and the hyaluronan receptor, CD44, were significantly down-regulated. ASHAS2 cells accumulated greater amounts of high molecular weight hyaluronan (>10,000 kDa) in the culture medium, whereas mock and parental cells liberated less hyaluronan of three distinct molecular weights (100, 400, and 3,000 kDa). The inhibition of HAS2 in the highly invasive MDA-MB-231 breast cancer cell line inhibited the initiation and progression of primary and secondary tumor formation following s.c. and intracardiac inoculation into nude mice, whereas controls readily established both primary and secondary tumors. The lack of primary and secondary tumor formation was manifested by increased survival times where ASHAS2 animals survived 172% longer than the control animals. Collectively, these unique results strongly implicate the central role of HAS2 in the initiation and progression of breast cancer, potentially highlighting the co-dependency between HAS2, CD44, and HYAL2 expression.
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PMID:Antisense-mediated suppression of hyaluronan synthase 2 inhibits the tumorigenesis and progression of breast cancer. 1602 15

Within tumors there appears to be an intricate balance between hyaluronan (HA) synthesis and degradation where the invading edges display increased HA metabolism. The metabolism of HA has not been characterized in breast cancer cell lines; therefore, this study quantitatively identifies and characterizes the enzymes responsible for the synthesis and degradation of HA while correlating gene expression to cancer cell invasiveness and HA receptor status. In ten well-established breast cancer cell lines, the expression of the genes for each hyaluronan synthase (HAS) and hyaluronidase (Hyal) isoform was quantitated using real-time and reverse transcriptase polymerase chain reaction (PCR). The synthesis and degradation rates of hyaluronan were determined by ELISA, while quantitation of HA receptors, CD44 and RHAMM was performed by comparative Western blotting. The molecular weight of HA synthesized by each HAS isoform and the degradation products of each hyaluronidase were characterized by size exclusion chromatography. It was demonstrated that highly invasive cell lines preferentially expressed the HAS2 and Hyal-2 isoforms, while less invasive cells expressed HAS3 and Hyal-3. There was a correlation between elevated levels of HA synthesis, CD44 expression and cancer cell migration thereby highlighting the pivotal role that HA metabolism plays in the aggressive breast cancer phenotype.
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PMID:The over-expression of HAS2, Hyal-2 and CD44 is implicated in the invasiveness of breast cancer. 1612

A hyaluronidase, named BmHYA1, was purified from the venom of Chinese red scorpion (Buthus martensi), using successive chromatography. The homogeneity of BmHYA1 was confirmed by SDS-PAGE and MALDI-TOF mass spectrometry. The molecular mass of BmHYA1 was 48,696 Da determined by MALDI-TOF MS. The optimal temperature and pH of BmHYA1 were 50 degrees C and pH 4.5, respectively. It could be inhibited by DTT, Cu(2+), Fe(3+) or heparin, but not Mg(2+), Ca(2+), reduced glutathione, l-cysteine or EDTA. The sequence of thirty N-terminal amino acids of BmHYA1 was obtained by Edman degradation, as TSADF KVVWE VPSIM CSKKF KICVT DLLTS; but no similarity was found to other venom hyaluronidases. Further, BmHYA1 can hydrolyze hyaluronan into relatively smaller oligosaccharides and modulate the expression of CD44 variant in the breast cancer cell line MDA-MB-231.
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PMID:Isolation and characterization of a hyaluronidase from the venom of Chinese red scorpion Buthus martensi. 1861 48

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