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)

Oncogene-dependent regulation and tumor relatedness of CD44 expression were investigated in Balb/c 3T3 cells and their derivatives transformed with different ras oncogenes (metastatic tumor model) or the human c-sis oncogene (non-metastatic model). Ras transformants using either the Harvey or Kirsten oncogenes expressed high levels of cell surface CD44 protein that bound fluoresceinated hyaluronan (HA). Much lower levels of CD44 were expressed in parental 3T3 cells, ras- revertants generated from Kirsten-transformed cells, or c-sis transformants, confirming the significance of the ras oncogene in this upregulation. To determine whether endogenous HA regulates these parameters, hyaluronidase treatment of ras transformants exposed more cell surface CD44 to anti-CD44 antibody and increased fluoresceinated HA binding; this did not occur with 3T3 or c-sis transformants. CD44 expression and its HA-binding function were conserved in a panel of in vivo primary and lung metastatic tumor cell lines derived from ras transformants. Ras transformants also retained the ability to downregulate CD44 protein levels in confluent cultures which occurred through a translational or post-translational mechanism (as CD44 mRNA levels were not reduced). These results taken together demonstrate that ras-dependent regulation of CD44 may correlate with tumor progression and metastasis in vivo, possibly (although not exclusively) supporting CD44's importance in metastatic progression.
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PMID:Oncogene-dependent expression of CD44 in Balb/c 3T3 derivatives: correlation with metastatic competence. 852 19

The glycosaminoglycan hyaluronic acid (HA) and its degrading enzyme, hyaluronidase, are intricately associated with tumor metastasis and angiogenesis. HA promotes tumor cell adhesion and migration, whereas its small fragments stimulate angiogenesis. Such small HA fragments are generated from the degradation of HA by hyaluronidase. We have previously shown (V. B. Lokeshwar et al., Cancer Res., 57: 773-777, 1997) that the HA levels are elevated in the urine and tumor tissues of bladder cancer patients regardless of the tumor grade (G). The hyaluronidase levels were found to be elevated in the urine and tumor tissues of G2 and G3 bladder cancer patients. Furthermore, angiogenic HA fragments were isolated from the urine of G2/G3 bladder cancer patients, which stimulated endothelial cell proliferation, a key event in angiogenesis. In this study, we characterized the bladder tumor-derived hyaluronidase. Analysis of hyaluronidase activity in the culture-conditioned media (CM) of 11 bladder cancer cell lines, using an ELISA-like assay and a substrate (HA)-gel technique, showed that the invasive bladder cancer cell lines secrete elevated levels of a Mr approximately 60,000 hyaluronidase. Reverse transcription-polymerase chain reaction, cloning, and sequence analyses revealed the expression of an HYAL1 transcript in bladder cancer lines. HYAL1 encodes for a hyaluronidase that is present in serum. Immunoblot analysis using an anti-HYAL1 peptide IgG confirmed the presence of a Mr approximately 60,000 HYAL1-related protein in the CM of bladder cancer cell lines, in the urine specimens from G2 and G3 bladder cancer patients, and in the partially purified preparations of bladder tumor-derived hyaluronidase. No HYAL1-related protein was detected in urine specimens from normal individuals, G1 bladder cancer patients, and patients with a history of bladder cancer but no disease at the time of testing. The bladder tumor-derived hyaluronidase present in CM and partially purified preparations was found to have maximum activity at a pH range of 4.1-4.3. The identification of bladder tumor-derived hyaluronidase should help in elucidating its role in bladder tumor progression.
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PMID:Identification of bladder tumor-derived hyaluronidase: its similarity to HYAL1. 1048 99

Hyaluronidase and hyaluronic acid, two substances thought to be strongly implicated in carcinogenesis, were assessed in the plasma of 35 patients with newly documented monoclonal gammapathy and in 25 control patients. A significant increase was found in plasma hyaluronidase activity in the patients with monoclonal gammapathy. A statistically significant positive correlation was found between hyaluronidase activity and monoclonal immunoglobulin levels in plasma. An increase in serum hyaluronidase activities may be a response to the deleterious effect of hyaluronic acid in cell migration and tumor progression. Further studies are needed to assess the value of hyaluronidase activity as a marker of tumor progression.
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PMID:Hyaluronidase activity in serum of patients with monoclonal gammapathy. 1102 Apr 70

Paradoxically, both hyaluronan (HA) and hyaluronidase are involved in malignant transformation and cancer progression. Their mechanisms of action, given the apparent disparities, are not understood. In many malignancies, levels of HA correlate with metastatic behavior while hyaluronidases suppress malignant progression. Hyal-1, product of one of six paralogous hyaluronidase-like sequences, is the predominant circulating hyaluronidase. HYAL1, the gene that codes for Hyal-1, is located on chromosome 3p21.3, a region containing a tumor suppressor gene. Loss of HYAL1 often correlates with tumor progression, particularly in tobacco-related cancers. In other malignancies, however, hyaluronidase functions as a tumor promoter. Testicular hyaluronidase (PH-20), used as an adjuvant in chemotherapy, is assumed to enhance drug permeability. By an unknown mechanism, hyaluronidases recruit tumor cells back into the cycling pool, making these malignancies more sensitive to chemotherapeutic drugs. Such contradictory observations might be resolved by assuming that HA and hyaluronidase are required at different times in the multiple steps that lead to malignant transformation. We have undertaken a systematic investigation of their roles in cancer progression. Here, we investigate the effect of Hyal-1 expression on cell cycle kinetics. A tumor cell line was constructed with an ecdysone-inducible promoter located upstream from the cDNA of HYAL1. Fluorescent-activated cell sorting was used to monitor cell cycle kinetics following Hyal-1 induction. Enhanced cell cycling was observed, with a 13.6% increase in S phase and 9.6% decrease in G(1)/G(0) phase cells.
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PMID:Plasma hyaluronidase (Hyal-1) promotes tumor cell cycling. 1116 12

Hyaluronidase is a hyaluronic acid-degrading endoglycosidase that is present in many toxins and the levels of which are elevated in cancer. Increased concentration of HYAL1-type hyaluronidase correlates with tumor progression and is a marker for grade (G) 2 or 3 bladder cancer. Using bladder tissues and cells, prostate cancer cells, and kidney tissues and performing reverse transcription-PCR, cDNA cloning, DNA sequencing, and in vitro translation, we identified splice variants of HYAL1 and HYAL3. HYAL1v1 variant lacks a 30-amino acid (aa) sequence (301-330) present in HYAL1 protein. HYAL1v1, HYAL1v2 (aa 183-435 present in HYAL1 wild type), HYAL1v3 (aa 1-207), HYAL1v4 (aa 260-435), and HYAL1v5 (aa 340-435) are enzymatically inactive and are expressed in normal tissues/cells and G1 bladder tumor tissues. However, HYAL1 wild type is expressed in G2/G3 tumors and in invasive tumor cells. Stable transfection and HYAL1v1-specific antibody confirmed that the HYAL1 sequence from aa 301 to 330 is critical for hyaluronidase activity. All tumor cells and tissues mainly express HYAL3 variants. HYAL3v1 lacks a 30-aa sequence (299-328) present in HYAL3 protein, that is homologous to the 30-aa HYAL1 sequence. HYAL3v1, HYAL3v2 (aa 251-417 present in HYAL3 wild type), and HYAL3v3 (aa 251-417, but lacking aa 299-328), are enzymatically inactive. Although splicing of a single independent exon generates HYAL1v1 and HYAL3v1, internal exon splicing generates the other HYAL1/HYAL3 variants. These results demonstrate that alternative mRNA splicing controls cellular expression of enzymatically active hyaluronidase and may explain the elevated hyaluronidase levels in bladder/prostate cancer.
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PMID:Regulation of hyaluronidase activity by alternative mRNA splicing. 1208 18

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

Hyaluronidases and their substrate, hyaluronan (HA), were mainly explored in solid tumors but rarely in hematologic malignancies. While HA involvement was demonstrated in invasion and metastasis in most cases of solid tumors, the role of hyaluronidases in cancer progression remains controversial. One of the hyaluronidases, HYAL2, is suspected to be involved in the first step of HA degradation. In this work, HYAL2 mRNA, HA and total hyaluronidases expression were examined in lymphoma tissue extracts and correlated to the lymphoma subtype. Real-time RT-PCR was performed to evaluate HYAL2 mRNA. HA and hyaluronidase were assayed by enzyme-linked sorbent assay. Our results showed that HYAL2 mRNA expression was correlated to lymphoma diagnosis (p = 6 x 10(-3)) and was significantly lower in high-grade lymphoma, i.e., diffuse large B-cell diffuse lymphomas (DLBCLs). Several forms of hyaluronidase were detected by zymography and total hyaluronidase activity detected in tissue extracts was not significantly different according to tumor grade. HA levels also correlated to lymphoma subtype (p = 1 x 10(-5)) and were higher in DLBCLs. Moreover, HYAL2 mRNA and HA expressions were inversely correlated (p = 0.035). HYAL2 gene is localized on chromosome 3p21, which contains candidates tumor suppressor genes. Our results suggest that HYAL2 may have a prognostic significance in lymphomas and an antioncogenic activity. Conversely, HA overexpression in high-grade lymphomas is in favor of its involvement in tumor development and could provide a useful target for lymphoma therapy using HA-binding peptides.
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PMID:Expression of HYAL2 mRNA, hyaluronan and hyaluronidase in B-cell non-Hodgkin lymphoma: relationship with tumor aggressiveness. 1709 31

Hyaluronic acid and HYAL1-type hyaluronidase show high accuracy in detecting bladder cancer and evaluating its grade, respectively. Hyaluronic acid promotes tumor progression; however, the functions of hyaluronidase in cancer are largely unknown. In this study, we stably transfected HT1376 bladder cancer cells with HYAL1-sense (HYAL1-S), HYAL1-antisense (HYAL1-AS), or vector cDNA constructs. Whereas HYAL1-S transfectants produced 3-fold more HYAL1 than vector transfectants, HYAL1-AS transfectants showed approximately 90% reduction in HYAL1 production. HYAL1-AS transfectants grew four times slower than vector and HYAL1-S transfectants and were blocked in the G2-M phase of the cell cycle. The expression of cdc25c and cyclin B1 and cdc2/p34-associated H1 histone kinase activity also decreased in HYAL1-AS transfectants. HYAL1-S transfectants were 30% to 44% more invasive, and HYAL1-AS transfectants were approximately 50% less invasive than the vector transfectants in vitro. In xenografts, there was a 4- to 5-fold delay in the generation of palpable HYAL1-AS tumors, and the weight of HYAL1-AS tumors was 9- to 17-fold less than vector and HYAL1-S tumors, respectively (P < 0.001). Whereas HYAL1-S and vector tumors infiltrated skeletal muscle and blood vessels, HYAL1-AS tumors resembled benign neoplasia. HYAL1-S and vector tumors expressed significantly higher amounts of HYAL1 (in tumor cells) and hyaluronic acid (in tumor-associated stroma) than HYAL1-AS tumors. Microvessel density in HYAL1-S tumors was 3.8- and 9.5-fold higher than that in vector and HYAL1-AS tumors, respectively. These results show that HYAL1 expression in bladder cancer cells regulates tumor growth and progression and therefore serves as a marker for high-grade bladder cancer.
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PMID:HYAL1 hyaluronidase: a molecular determinant of bladder tumor growth and invasion. 1578 37

Paradoxically, both hyaluronan (HA) and hyaluronidases, the enzymes that eliminate HA, can correlate with cancer progression. Levels of HA on the surface of tumor cells are indicators of poor outcome. Certain hyaluronidases, products of tumor suppressor genes eliminated in the course of tumor spread, are used clinically in anti-cancer chemotherapy regimens. Such information would indicate that cancer progression is inhibited by hyaluronidase. Yet progression of certain cancers correlates with levels of hyaluronidase activity. An attempt is made here to understand such apparent contradictions by examining details of HA metabolism. Anabolic and catabolic pathways are comprised of the HA synthases and hyaluronidases, respectively. There are several enzymes that synthesize HA, each under a different control mechanism, generating products of differing polymer size. The hyaluronidases degrade HA in step-wise fashion, the polymer decreasing in size in quantum steps, each size-specific polymer having a different biological activity. Superimposed on these are the potent hyaluronidase inhibitors, about which very little is known. These components of HA metabolism are reviewed here for possible roles in supporting or suppressing malignant transformation, growth, invasion and metastatic spread of tumors. Such a systematic approach may reveal mechanisms used in the course of cancer progression, resolve some of the apparent disparities, render new prognostic markers, and provide new targets for therapeutic intervention.
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PMID:Hyaluronan metabolism: a major paradox in cancer biology. 1608 13

The heterogeneity of proteoglycans (PG)s contributes to their functional diversity. Many functions depend on their ability to bind and modulate the activity of components of the extracellular matrix (ECM). The ability of PGs to interact with other molecules, such as growth factors, is largely determined by the fine structure of the glycosaminoglycan (GAG) chains. Tumorigenesis is associated with changes in the PG synthesis. Heparan sulfate (HS) PGs are involved in several aspects of cancer biology including tumor progression, angiogenesis, and metastasis. PGs can have both tumor promoting and tumor suppressing activities depending on the protein core, the GAG attached, molecules they associate with, localization, the tumor subtype, stages, and degree of tumor differentiation. Perlecan is an angiogenic factor involved in tumor invasiveness. The C-terminal domain V of perlecan, named endorepellin, has however been shown to inhibit angiogenesis. Another angiogenic factor is endostatin, the COOH-terminal domain of the part-time PG collagen XVIII. Glypicans and syndecans may promote local cancer cell growth in some cancer tissues, but inhibit tissue invasion and metastasis in others. The GAG hyaluronan (HA) promotes cancer growth by providing a loose matrix for migrating tumor cells and mediates adhesion of cancer cells. HSPG degrading enzymes like heparanase, heparitinase, and other enzymes such as hyaluronidase and MMP are also important in tumor metastasis. Several different treatment strategies that target PGs have been developed. They have the potential to be effective in reducing tumor growth and inhibit the formation of metastases. PGs are also valuable tumor markers in several cancers.
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PMID:Decreasing the metastatic potential in cancers--targeting the heparan sulfate proteoglycans. 1617

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