Your search keyword '"Zakrzewska, Małgorzata"' showing total 4 results

1. The intracellular interplay between galectin-1 and FGF12 in the assembly of ribosome biogenesis complex

Author

Gędaj, Aleksandra, Chorążewska, Aleksandra, Ciura, Krzysztof, Karelus, Radosław, Żukowska, Dominika, Biaduń, Martyna, Kalka, Marta, Zakrzewska, Małgorzata, Porębska, Natalia, and Opaliński, Łukasz

Published

2024

2. Differential regulation of fibroblast growth factor receptor 1 trafficking and function by extracellular galectins

Author

Kucińska, Marika, Porębska, Natalia, Lampart, Agata, Latko, Marta, Knapik, Agata, Zakrzewska, Małgorzata, Otlewski, Jacek, and Opaliński, Łukasz

Published

2019

3. The Significance of Cell Surface N-Glycosylation for Internalization and Potency of Cytotoxic Conjugates Targeting Receptor Tyrosine Kinases.

Author

Poźniak, Marta, Żukowska, Dominika, Gędaj, Aleksandra, Krzyścik, Mateusz Adam, Porębska, Natalia, Zakrzewska, Małgorzata, Otlewski, Jacek, and Opaliński, Łukasz

Subjects

CELL membranes, KINASES, MEMBRANE glycoproteins, TYROSINE, GALECTINS, PROTEIN-tyrosine kinases, LECTINS

Abstract

Precise anticancer therapies employing cytotoxic conjugates constitute a side-effect-limited, highly attractive alternative to commonly used cancer treatment modalities, such as conventional chemotherapy, radiotherapy or surgical interventions. Receptor tyrosine kinases are a large family of N-glycoproteins intensively studied as molecular targets for cytotoxic conjugates in various cancers. At the cell surface, these receptors are embedded in a dense carbohydrate layer formed by numerous plasma membrane glycoproteins. The complexity of the cell surface architecture is further increased by galectins, secreted lectins capable of recognizing and clustering glycoconjugates, affecting their motility and activity. Cell surface N-glycosylation is intensively remodeled by cancer cells; however, the contribution of this phenomenon to the efficiency of treatment with cytotoxic conjugates is largely unknown. Here, we evaluated the significance of N-glycosylation for the internalization and toxicity of conjugates targeting two model receptor tyrosine kinases strongly implicated in cancer: HER2 and FGFR1. We employed three conjugates of distinct molecular architecture and specificity: AffibodyHER2-vcMMAE (targeting HER2), vcMMAE-KCK-FGF1.E and T-Fc-vcMMAE (recognizing different epitopes within FGFR1). We demonstrated that inhibition of N-glycosylation reduced the cellular uptake of all conjugates tested and provided evidence for a role of the galectin network in conjugate internalization. In vitro binding studies revealed that the reduced uptake of conjugates is not due to impaired HER2 and FGFR1 binding. Importantly, we demonstrated that alteration of N-glycosylation can affect the cytotoxic potential of conjugates. Our data implicate a key role for cell surface N-glycosylation in the delivery of cytotoxic conjugates into cancer cells. [ABSTRACT FROM AUTHOR]

Published

2022

4. Galectins as modulators of receptor tyrosine kinases signaling in health and disease.

Author

Porębska, Natalia, Poźniak, Marta, Matynia, Aleksandra, Żukowska, Dominika, Zakrzewska, Małgorzata, Otlewski, Jacek, and Opaliński, Łukasz

Subjects

*GALECTINS, *CARRIER proteins, *KINASES, *TYROSINE, *POST-translational modification, *LECTINS, *GLYCOCALYX

Abstract

[Display omitted] • Receptor tyrosine kinases (RTKs) regulate pivotal cellular processes and are dysregulated in cancer. • RTKs are extensively glycosylated and this modification affects cellular functions of these receptors. • Galectins are carbohydrate binding proteins implicated in developmental processes and cancers. Galectins directly and indirectly affect RTKs, modulating RTKs activation, their cross-talk with other cell surface proteins and their cellular trafficking. • Galectins are responsible for oncogenic activation of RTKs. • RTK-galectin interplay constitutes an attractive target for development of anti-cancer therapies. Receptor tyrosine kinases (RTKs) constitute a large group of cell surface proteins that mediate communication of cells with extracellular environment. RTKs recognize external signals and transfer information to the cell interior, modulating key cellular activities, like metabolism, proliferation, motility, or death. To ensure balanced stream of signals the activity of RTKs is tightly regulated by numerous mechanisms, including receptor expression and degradation, ligand specificity and availability, engagement of co-receptors, cellular trafficking of the receptors or their post-translational modifications. One of the most widespread post-translational modifications of RTKs is glycosylation of their extracellular domains. The sugar chains attached to RTKs form a new layer of information, so called glyco-code that is read by galectins, carbohydrate binding proteins. Galectins are family of fifteen lectins implicated in immune response, inflammation, cell division, motility and death. The versatility of cellular activities attributed to galectins is a result of their high abundance and diversity of their cellular targets. A various sugar specificity of galectins and the differential ability of galectin family members to form oligomers affect the spatial distribution and the function of their cellular targets. Importantly, galectins and RTKs are tightly linked to the development, progression and metastasis of various cancers. A growing number of studies points on the close cooperation between RTKs and galectins in eliciting specific cellular responses. This review focuses on the identified complexes between galectins and RTK members and discusses their relevance for the cell physiology both in healthy tissues and in cancer. [ABSTRACT FROM AUTHOR]

Published

2021