Camila A Bach scite author profile

Camila A Bach

3Publications

28Citation Statements Received

183Citation Statements Given

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354

183

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Consejo Nacional de Investigaciones Científicas y Técnicas, Experimental Medicine and Biology Institute

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Tissue-specific control of galectin-1-driven circuits during inflammatory responses

Cutine

Bach

Veigas

et al. 2021

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The relevance of glycan-binding protein in immune tolerance and inflammation has been well established, mainly by studies of C-type lectins, siglecs and galectins both in experimental models and patient samples. Galectins, a family of evolutionarily conserved lectins, are characterized by sequence homology in the carbohydrate-recognition domain (CRD), atypical secretion via an ER-Golgi-independent pathway and the ability to recognize β-galactoside-containing saccharides. Galectin-1 (Gal-1), a prototype member of this family displays mainly anti-inflammatory and immunosuppressive activities, although, similar to many cytokines and growth factors, it may also trigger paradoxical pro-inflammatory effects under certain circumstances. These dual effects could be associated to tissue-, time- or context-dependent regulation of galectin expression and function, including particular pathophysiologic settings and/or environmental conditions influencing the structure of this lectin, as well as the availability of glycosylated ligands in immune cells during the course of inflammatory responses. Here, we discuss the tissue-specific role of Gal-1 as a master regulator of inflammatory responses across different pathophysiologic settings, highlighting its potential role as a therapeutic target. Further studies designed at analyzing the intrinsic and extrinsic pathways that control Gal-1 expression and function in different tissue microenvironments may contribute to design tailored therapeutic strategies aimed at positively or negatively modulate this glycan-binding protein in pathologic inflammatory conditions.

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Reprogramming the tumor metastasis cascade by targeting galectin-driven networks

Perrotta

Bach

Salatino

et al. 2021

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A sequence of interconnected events known as the metastatic cascade promotes tumor progression by regulating cellular and molecular interactions between tumor, stromal, endothelial, and immune cells both locally and systemically. Recently, a new concept has emerged to better describe this process by defining four attributes that metastatic cells should undergo. Every individual hallmark represents a unique trait of a metastatic cell that impacts directly in the outcome of the metastasis process. These critical features, known as the hallmarks of metastasis, include motility and invasion, modulation of the microenvironment, cell plasticity and colonization. They are hierarchically regulated at different levels by several factors, including galectins, a highly conserved family of β-galactoside-binding proteins abundantly expressed in tumor microenvironments and sites of metastasis. In this review, we discuss the role of galectins in modulating each hallmark of metastasis, highlighting novel therapeutic opportunities for treating the metastatic disease.

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Untangling Galectin-Mediated Circuits that Control Hypoxia-Driven Angiogenesis

Bannoud

García

Gambarte-Tudela

et al. 2022

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Camila A Bach

Tissue-specific control of galectin-1-driven circuits during inflammatory responses

Reprogramming the tumor metastasis cascade by targeting galectin-driven networks

Untangling Galectin-Mediated Circuits that Control Hypoxia-Driven Angiogenesis

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