Heparan Sulfate Biosynthetic System Is Inhibited in Human Glioma Due to EXT1/2 and HS6ST1/2 Down-Regulation

Ushakov, Victor S.; Tsidulko, Alexandra Y.; Bourdonnaye, Gabin de La; Kazanskaya, G. M.; Волков, А. М.; Kiselev, Roman; Kobozev, Vyacheslav V.; Kostromskaya, Diana V.; Gaitán, Armando; Кривошапкин, А. Л.; Айдагулова, С. В.; Grigorieva, Elvira V.

doi:10.3390/ijms18112301

Cited by 27 publications

(18 citation statements)

References 37 publications

(50 reference statements)

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“…In this report we demonstrate a novel role for HS2ST1 in modulating breast cancer cell invasiveness via central signaling pathways including MAPK and Wnt (Figure 6F). Our findings are in line with studies in glioma, indicating a downregulation of HS2ST1 and other HS sulfotransferases 50 . Mechanistically, HSPGs modulate MAPK signaling, promoting proliferation, migration, and invasion 45,51‐53 .…”

Section: Discussionsupporting

confidence: 91%

“…EGFR, known to be overexpressed and activated in approximately 20%‐25% of cancers, 55 acts as a central point for the activation and crosstalk with many signaling pathways relevant to tumor migration and invasion 56 . MAPK and other kinases like phosphatidylinositol‐3‐kinase (PI3‐K) act downstream of EGFR activation, promoting tumor cell migration and invasion 50,57‐59 . In addition, decreased activation or inhibition of p38 MAPK decreases breast cancer metastasis 60 …”

Section: Discussionmentioning

confidence: 99%

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HS2ST1‐dependent signaling pathways determine breast cancer cell viability, matrix interactions, and invasive behavior

et al. 2020

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Heparan sulfate proteoglycans (HSPGs) act as signaling co‐receptors by interaction of their sulfated glycosaminoglycan chains with numerous signaling molecules. In breast cancer, the function of heparan sulfate 2‐O‐sulfotransferase (HS2ST1), the enzyme mediating 2‐O‐sulfation of HS, is largely unknown. Hence, a comparative study on the functional consequences of HS2ST1 overexpression and siRNA knockdown was performed in the breast cancer cell lines MCF‐7 and MDA‐MB‐231. HS2ST1 overexpression inhibited Matrigel invasion, while its knockdown reversed the phenotype. Likewise, cell motility and adhesion to fibronectin and laminin were affected by altered HS2ST1 expression. Phosphokinase array screening revealed a general decrease in signaling via multiple pathways. Fluorescent ligand binding studies revealed altered binding of fibroblast growth factor 2 (FGF‐2) to HS2ST1‐expressing cells compared with control cells. HS2ST1‐overexpressing cells showed reduced MAPK signaling responses to FGF‐2, and altered expression of epidermal growth factor receptor (EGFR), E‐cadherin, Wnt‐7a, and Tcf4. The increased viability of HS2ST1‐depleted cells was reduced to control levels by pharmacological MAPK pathway inhibition. Moreover, MAPK inhibitors generated a phenocopy of the HS2ST1‐dependent delay in scratch wound repair. In conclusion, HS2ST1 modulation of breast cancer cell invasiveness is a compound effect of altered E‐cadherin and EGFR expression, leading to altered signaling via MAPK and additional pathways.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 99%

HS2ST1‐dependent signaling pathways determine breast cancer cell viability, matrix interactions, and invasive behavior

et al. 2020

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“…Overexpression of HPSE in U87 glioma cells increases their invasion [17], and in U251n also increased cell invasion, proliferation and anchorage-independent colony formation [20]. We have previously shown that HPSE is down-regulated in gliomas Grade II-IV at the mRNA level, and there is a significant decrease of HPSE protein in tumor and paratumorous glioblastoma tissues compared with the normal tissue [19].…”

Section: Discussionmentioning

confidence: 99%

“…Previously, a significant decrease of mRNA levels of HPSE in Grade II-IV gliomas and heterogeneous distribution of HPSE protein in primary glioblastomas were demonstrated [19]. To investigate a hypothesis on a potential negative effect of anti-GBM treatment on HPSE and HS content and distribution in GBM tissues, we collected matched pairs of primary and relapsed GBM tumors from the same patient (n = 8).…”

Section: Chemoradiotherapy Affects Intertumor Heterogeneity Of Hpse Cmentioning

confidence: 99%

“…Previously, we have shown that mRNA level of HPSE is significantly decreased in Grade II-IV gliomas [19] and distribution of its substrate HS is associated with low relapse-free survival of the glioma patients [4]. To study a possible effect of adjuvant anti-glioblastoma chemoradiotherapy on HPSE expression and its interrelation with HS content, we performed their comparative analysis in primary tumors and the relapsed tumors developed after the treatment.…”

Section: Introductionmentioning

confidence: 99%

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Chemoradiotherapy Increases Intratumor Heterogeneity of HPSE Expression in the Relapsed Glioblastoma Tumors

Suhovskih

Kazanskaya

Волков

et al. 2020

IJMS

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Adjuvant chemoradiotherapy is a standard treatment option for glioblastoma multiforme (GBM). Despite intensive care, recurrent tumors developed during the first year are fatal for the patients. Possibly contributing to this effect, among other causes, is that therapy induces changes of polysaccharide heparan sulfate (HS) chains in the cancer cells and/or tumor microenvironment. The aim of this study was to perform a comparative analysis of heparanase (HPSE) expression and HS content in different normal and GBM brain tissues. Immunohistochemical analysis revealed a significant decrease of HPSE protein content in the tumor (12-15-fold) and paratumorous (2.5-3-fold) GBM tissues compared with normal brain tissue, both in cellular and extracellular compartments. The relapsed GBM tumors demonstrated significantly higher intertumor and/or intratumor heterogeneity of HPSE and HS content and distribution compared with the matched primary ones (from the same patient) (n = 8), although overall expression levels did not show significant differences, suggesting local deterioration of HPSE expression with reference to the control system or by the treatment. Double immunofluorescence staining of various glioblastoma cell lines (U87, U343, LN18, LN71, T406) demonstrated a complex pattern of HPSE expression and HS content with a tendency towards a negative association of these parameters. Taken together, the results demonstrate the increase of intratumor heterogeneity of HPSE protein in relapsed GBM tumors and suggest misbalance of HPSE expression regulation by the adjuvant anti-GBM chemoradiotherapy.

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Glycomaterials to Investigate the Functional Role of Aberrant Glycosylation in Glioblastoma

Tondepu

Karumbaiah

2021

Adv Healthcare Materials

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Glioblastoma (GBM) is a stage IV astrocytoma that carries a dismal survival rate of ≈10 months postdiagnosis and treatment. The highly invasive capacity of GBM and its ability to escape therapeutic challenges are key factors contributing to the poor overall survival rate. While current treatments aim to target the cancer cell itself, they fail to consider the significant role that the GBM tumor microenvironment (TME) plays in promoting tumor progression and therapeutic resistance. The GBM tumor glycocalyx and glycan-rich extracellular matrix (ECM), which are important constituents of the TME have received little attention as therapeutic targets. A wide array of aberrantly modified glycans in the GBM TME mediate tumor growth, invasion, therapeutic resistance, and immunosuppression. Here, an overview of the landscape of aberrant glycan modifications in GBM is provided, and the design and utility of 3D glycomaterials are discussed as a tool to evaluate glycan-mediated GBM progression and therapeutic efficacy. The development of alternative strategies to target glycans in the TME can potentially unveil broader mechanisms of restricting tumor growth and enhancing the efficacy of tumor-targeting therapeutics.

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Heparan Sulfate Biosynthetic System Is Inhibited in Human Glioma Due to EXT1/2 and HS6ST1/2 Down-Regulation

Cited by 27 publications

References 37 publications

HS2ST1‐dependent signaling pathways determine breast cancer cell viability, matrix interactions, and invasive behavior

HS2ST1‐dependent signaling pathways determine breast cancer cell viability, matrix interactions, and invasive behavior

Chemoradiotherapy Increases Intratumor Heterogeneity of HPSE Expression in the Relapsed Glioblastoma Tumors

Glycomaterials to Investigate the Functional Role of Aberrant Glycosylation in Glioblastoma

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