Galectin

About: Galectin is a research topic. Over the lifetime, 2076 publications have been published within this topic receiving 103409 citations. The topic is also known as: IPR001079 & Galectin.

Galectins at a glance.

Abstract: Galectins are carbohydrate-binding proteins that are involved in many physiological functions, such as inflammation, immune responses, cell migration, autophagy and signalling. They are also linked to diseases such as fibrosis, cancer and heart disease. How such a small family of only 15 members can have such widespread effects remains a conundrum. In this Cell Science at a Glance article, we summarise recent literature on the many cellular activities that have been ascribed to galectins. As shown on the accompanying poster, these include carbohydrate-independent interactions with cytosolic or nuclear targets and carbohydrate-dependent interactions with extracellular glycoconjugates. We discuss how these intra- and extracellular activities might be linked and point out the importance of unravelling molecular mechanisms of galectin function to gain a true understanding of their contributions to the physiology of the cell. We close with a short outlook on the organismal functions of galectins and a perspective on the major challenges in the field.

Expression and function of galectin-3, a beta-galactoside-binding lectin, in human monocytes and macrophages.

Abstract: A family of beta-galactoside-binding animal lectins has recently been designated as galectins. One member of this family, galectin-3, has been known as epsilon BP for its IgE-binding activity and as Mac-2, a macrophage surface antigen, CBP35, CBP30, L-29, and L-34. Although much information has accumulated on the expression of this lectin in murine macrophages and human monocytic cell lines, little is known about the expression and function of this protein in normal human monocytes/macrophages. We now report that galectin-3 is expressed in normal human peripheral blood monocytes and its level increases dramatically as human monocytes differentiate into macrophages upon culturing in vitro. Immunoblot analysis showed that there was a 5-fold increase in the level of galectin-3 after 1 day of culture and greater than a 12-fold increase after 5 days. Immunocytochemical analysis confirmed this progressive increase of galectin-3 expression in cultured monocytes. Immunogold cytochemistry/electron microscopy analysis revealed that galectin-3 was expressed on the surface of human monocytes and that the level of cell surface galectin-3 increased progressively as these cells differentiated into macrophages. The level of galectin-3 in human monocytes/macrophages was modulated by stimuli such as lipopolysaccharide and interferon-gamma, and galectin-3 was secreted when monocytes were stimulated by calcium ionophore A23187 Soluble galectin-3 caused superoxide release from human monocytes; this activity was dependent on the lectin property of galectin-3, as it was inhibitable by lactose. Thus, galectin-3 may modulate the function of this cell type in an autocrine or paracrine fashion through binding to cell surface glycoconjugates.

Galectins: regulators of acute and chronic inflammation

Abstract: Galectins, β-galactoside-binding animal lectins, are differentially expressed by various immune cells as well as a wide range of other cell types. Extracellularly, galectins are able to exhibit bivalent or multivalent interactions with cell-surface glycans on various immune cells and exert various effects. These include cytokine and mediator production, cell adhesion, apoptosis, and chemoattraction. In addition, they can form lattices with cell-surface glycoprotein receptors, resulting in modulation of receptor functions, including clustering and endocytosis. Intracellularly, galectins can participate in signaling pathways and modulate biologic responses. These include apoptosis, cell differentiation, and cell migration. Thus, a large body of literature indicates that galectins play important roles in the immune and inflammatory responses through regulating the homeostasis and functions of immune cells. The use of mice deficient in individual galectins has provided additional evidence for the contributions of these proteins to these responses. Current research indicates that galectins play important roles in the development of acute inflammation as well as chronic inflammation associated with allergies, autoimmune diseases, atherosclerosis, infectious processes, and cancer. Thus, recombinant proteins or specific galectin inhibitors may be used as therapeutic agents for inflammatory diseases.

Lectin-like proteins in model organisms: implications for evolution of carbohydrate-binding activity

Abstract: Classes of intracellular lectins that recognize core-type structures and mediate intracellular glycoprotein trafficking are present in vertebrates, model invertebrates such as Caenorhabditis elegans and Drosophila melanogaster, plants, and yeasts. Lectins that recognize more complex structures at the cell surface, such as C-type lectins and galectins, are also found in invertebrate organisms as well as vertebrates, but the functions of these proteins have evolved differently in different animal lineages.