Overexpression of glycosylated proteins in cervical cancer recognized by the Machaerocereus eruca agglutinin Overexpression of glycosylated proteins in cervical cancer recognized by the Machaerocereus eruca agglutinin

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In cervical cancer, glycosylation has been suggested as being involved in both its carcinogenesis and<br />invasive capacity. In this work, we analyzed mucin type O-glycosylation in biopsies of invasive cervical cancer in<br />FIGO stage II B through histochemistry using lectins specific for O-glycosidically linked glycans. Our results<br />reveal that the lectin Machaerocereus eruca (MeA, specific for Gal in a Fuca1,2 (GalNAca1,3) Galb1,4) showed<br />increased recognition of tumoral cells and tumoral stroma tissue compared to other lectins with similar specificity;<br />healthy cervical tissue was negative for MeA. Trypsin treatment of recognized tissues abolished MeA’s recognition;<br />moreover, interaction of MeA was inhibited with oligosaccharides from mucin. As demonstrated by<br />Western blot of 2-D electrophoresis, MeA recognized ten glycoproteins in the range from 122 to 42 kDa in<br />cervical cancer lysates. The LC-ESI-MS/MS analysis of the MeAs’ recognized peptides revealed that the latter<br />matched mainly with the amino acid sequences of lamin A/C, vimentin, elongation factor 2, keratin 1, and beta<br />actin. Our results suggest that MeA recognizes a complex of over-expressed O-glycosidically-linked proteins that<br />play a relevant role in cervical cancer’s invasive capacity. O-glycosylation participates in the disassembly of intercellular<br />junctions favoring cancer progression.In cervical cancer, glycosylation has been suggested as being involved in both its carcinogenesis and<br />invasive capacity. In this work, we analyzed mucin type O-glycosylation in biopsies of invasive cervical cancer in<br />FIGO stage II B through histochemistry using lectins specific for O-glycosidically linked glycans. Our results<br />reveal that the lectin Machaerocereus eruca (MeA, specific for Gal in a Fuca1,2 (GalNAca1,3) Galb1,4) showed<br />increased recognition of tumoral cells and tumoral stroma tissue compared to other lectins with similar specificity;<br />healthy cervical tissue was negative for MeA. Trypsin treatment of recognized tissues abolished MeA’s recognition;<br />moreover, interaction of MeA was inhibited with oligosaccharides from mucin. As demonstrated by<br />Western blot of 2-D electrophoresis, MeA recognized ten glycoproteins in the range from 122 to 42 kDa in<br />cervical cancer lysates. The LC-ESI-MS/MS analysis of the MeAs’ recognized peptides revealed that the latter<br />matched mainly with the amino acid sequences of lamin A/C, vimentin, elongation factor 2, keratin 1, and beta<br />actin. Our results suggest that MeA recognizes a complex of over-expressed O-glycosidically-linked proteins that<br />play a relevant role in cervical cancer’s invasive capacity. O-glycosylation participates in the disassembly of intercellular<br />junctions favoring cancer progression.