Carbohydrate structure and differential binding of prostate specific antigen to Maackia amurensis lectin between prostate cancer and benign prostate hypertrophy

Οhyama, Chikara; Hosono, Masahiro; Nitta, Kazuo; Oh-eda, Masayoshi; Yoshikawa, Kazuyuki; Habuchi, Tomonori; Arai, Yoichi; Fukuda, Minoru

doi:10.1093/glycob/cwh071

Cited by 152 publications

(128 citation statements)

References 28 publications

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“…In the same study, we observed a different proportion of alpha 2-3 linked sialic acid in the PSA present in patients, which was decreased in relation to that from healthy seminal plasma (15 vs. 25%) (Tabares et al, 2006). However, our present results are more consistent with the observations made by other authors (Ohyama et al, 2004;Tajiri et al, 2008).…”

Section: N-glycosylation Of Psa 2-de Subforms In Prostate Cancer: Chasupporting

confidence: 92%

“…These changes in this major subform may be considered representative of the whole PSA, as F3 accounts for 50-70% of all PSA subforms. The percentage of alpha 2-3 sialic acid in seminal plasma PSA was consistent with our previous analyses (25%) (Tabares et al, 2006) and with studies by Ohyama and coworkers (*20%) (Ohyama et al, 2004). In the same study, we observed a different proportion of alpha 2-3 linked sialic acid in the PSA present in patients, which was decreased in relation to that from healthy seminal plasma (15 vs. 25%) (Tabares et al, 2006).…”

Section: N-glycosylation Of Psa 2-de Subforms In Prostate Cancer: Chasupporting

confidence: 92%

“…In fact, secreted glycoproteins can reflect the changes in glycosylation pattern that usually take place on the tumor cells surface (Peracaula, 2007;Varki et al, 2008). Several authors have described modifications in the sialylation pattern of PSA derived from malignant origins compared with that from healthy individuals (Huber et al, 1995;Ohyama et al, 2004;Peracaula et al, 2003;Tabares et al, 2006). Sialic acid is a negatively charged carbohydrate.…”

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confidence: 99%

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Glycan Characterization of PSA 2-DE Subforms from Serum and Seminal Plasma

Sarrats

Saldova²,

Comet³

et al. 2010

OMICS: A Journal of Integrative Biology

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Prostate-specific antigen (PSA) two-dimensional electrophoresis (2-DE) subforms (F1-F5) have been described to be altered in prostate cancer (PCa) compared to benign prostatic hyperplasia (BPH). To understand their molecular differences, characterization of these subforms from PCa serum and seminal plasma, namely, at the glycan level, was performed. PSA 2-DE subforms from two serum PCa samples and seminal plasma were analyzed by N-glycan sequencing using high-performance liquid chromatography (HPLC) combined with exoglycosidase array digestions and by mass spectrometry. F1, F2, and F3 subforms showed the same N-glycan pattern, which contained higher levels of sialic acid than the F4 subform, whereas the F5 subform was unglycosylated. When comparing PSA subforms from PCa with seminal plasma, a decrease in sialylation was observed. Furthermore, the analysis of F3, the more abundant PSA subform, showed a higher proportion of alpha 2-3 sialic acid and a decrease in core fucosylated glycans in the PCa sample. These N-glycan changes in PCa PSA subforms highlight the importance of glycosylation as an indicator of PCa disease.

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Section: N-glycosylation Of Psa 2-de Subforms In Prostate Cancer: Chasupporting

confidence: 92%

Section: N-glycosylation Of Psa 2-de Subforms In Prostate Cancer: Chasupporting

confidence: 92%

mentioning

confidence: 99%

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Glycan Characterization of PSA 2-DE Subforms from Serum and Seminal Plasma

Sarrats

Saldova²,

Comet³

et al. 2010

OMICS: A Journal of Integrative Biology

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“…the content of sialic acid have been elevated on some malignant tumor cells, a positive correlation between cell metastatic potential and total sialic acid content has been reported in many types of tumors. Most of these studies suggested that high level of sialylation may contribute to invasion and metastasis (17)(18)(19). the tumor dissemination is a multistep process involving aberrant biological behavior of tumor cells, such as adhesion, migration and invasion.…”

Section: Discussionmentioning

confidence: 99%

Differential expression of the α2,3-sialic acid residues in breast cancer is associated with metastatic potential

Cui

Lin²,

Yue³

et al. 2011

Oncol Rep

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Abstract. Aberrant sialylation is closely associated with the malignant phenotype of cancer cells and metastatic potential. However, the precise nature of the molecules in breast cancers has not been unveiled. In this study, we investigated the expression levels of α2,3-sialic acid residues of 50 primary tumor cases, 50 pair-matched lymph node metastasis tumor samples and in the MDA-MB-231, t-47D and McF-7 breast cancer cell lines with different metastatic potential. the expression of α2,3-sialic acid residues was analyzed by histochemistry, cytochemistry and flow cytometry with Maackia amurensis lectin (MAl). the invasion and migration abilities of cells were examined using cell adhesion and transwell in vitro assays. pair-matched lymph node metastasis tumor samples exhibited higher levels of expression of α2,3-sialic acid residues compared to that of primary tumors (p=0.0432). Furthermore, of 38 tumors cases in t1/t2 stages, 31 (81.58%) had weak staining for MAL, which specifically binds to α2,3-sialic acid residues, whereas of 12 tumor cases in t3/t4 stages, only 1 (8.33%) had weak reactions for MAl. the highly metastatic breast cancer cell line MDA-MB-231 exhibited the strongest binding to MAl and the highest expression levels of α2,3-sialic acid residues among the selected cell lines, depending on mrnA expression levels of α2,3-sialyltransferase gene. the adhesion, invasion and migration activities confirmed that MDA-MB-231 exhibited the greater cell adhesion to, migration toward and invasion to Matrigel. taken together, the high expression of α2,3-sialic acid residues in breast cancer was associated with metastatic potential. this property may be important for developing new therapeutic approaches for breast cancer.

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“…Earlier studies observed that a large portion of KLK3 from plasma of prostate cancer patients was non-glycosylated, whereas malignant tumor cells generate KLK3 with more antennae than the common biantennary N-glycan of normal KLK3 (Barak et al, 1989;Prakash and Robbins, 2000). Also, the glycosylation of prostate cancer KLK3 was reduced in benign prostate hyperplasia (BPH) and exhibited a different composition (Basu et al, 2003;Ohyama et al, 2004) KLK3 from prostate tumor cell lines shows an altered sugar composition, with a significant lack of sialic acid in the N-glycan tree (Peracaula et al, 2003). Seemingly, differences exist in fucosylation and sialylation of KLK3 from prostate cancer patients, although they do not appear to be sufficient for reliable prognosis of the disease (Tabares et al, 2006(Tabares et al, , 2007.…”

Section: The Prostatic Klks 2 Andmentioning

confidence: 99%

Sweetened kallikrein-related peptidases (KLKs): glycan trees as potential regulators of activation and activity

Guo

Skala

Magdolen

et al. 2014

Biological Chemistry

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Most kallikrein-related peptidases (KLKs) are N-glycosylated with N-acetylglucosamine 2 -mannose 9 units at Asn-Xaa-Ser/Thr sequons during protein synthesis and translocation into the endoplasmic reticulum. These N-glycans are modified in the Golgi machinery, where additional O-glycosylation at Ser and Thr takes place, before exocytotic release of the KLKs into the extracellular space. Sequons are present in all 15 members of the KLKs and comparative studies for KLKs from natural and recombinant sources elucidated some aspects of glycosylation. Although glycosylation of mammalian KLKs 1, 3, 4, 6, and 8 has been analyzed in great detail, e.g., by crystal structures, the respective function remains largely unclear. In some cases, altered enzymatic activity was observed for KLKs upon glycosylation. Remarkably, for KLK3/PSA, changes in the glycosylation pattern were observed in samples of benign prostatic hyperplasia and prostate cancer with respect to healthy individuals. Potential functions of KLK glycosylation in structural stabilization, protection against degradation, and activity modulation of substrate specificity can be deduced from a comparison with other glycosylated proteins and their regulation. According to the new concept of protein sectors, glycosylation distant from the active site might significantly influence the activity of proteases. Novel pharmacological approaches can exploit engineered glycans in the therapeutical context.

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Carbohydrate structure and differential binding of prostate specific antigen to Maackia amurensis lectin between prostate cancer and benign prostate hypertrophy

Cited by 152 publications

References 28 publications

Glycan Characterization of PSA 2-DE Subforms from Serum and Seminal Plasma

Glycan Characterization of PSA 2-DE Subforms from Serum and Seminal Plasma

Differential expression of the α2,3-sialic acid residues in breast cancer is associated with metastatic potential

Sweetened kallikrein-related peptidases (KLKs): glycan trees as potential regulators of activation and activity

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