Title Effects of beta-glucans on the immune system /
Another Title Beta gliukanų poveikis imuninei sistemai.
Authors Akramienė, Dalia ; Kondrotas, Anatolijus ; Didžiapetrienė, Janina ; Kėvelaitis, Egidijus
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Is Part of Medicina. 2007, t. 43, Nr. 8, p. 597-606.. ISSN 1010-660X
Keywords [eng] Immune system ; Beta-Glucans ; Antibodies, monoclonal ; Macrophage-1 antigen
Abstract [eng] b-Glucans are naturally occurring polysaccharides. These glucose polymers are constituents of the cell wall of certain pathogenic bacteria and fungi. The healing and immunostimulating properties of mushrooms have been known for thousands of years in the Eastern countries. These mushrooms contain biologically active polysaccharides that mostly belong to group of b-glucans. These substances increase host immune defense by activating complement system, enhancing macrophages and natural killer cell function. The induction of cellular responses by mushroom and other b-glucans is likely to involve their specific interaction with several cell surface receptors, as complement receptor 3 (CR3; CD11b/CD18), lactosylceramide, selected scavenger receptors, and dectin-1 (bGR). b-Glucans also show anticarcinogenic activity. They can prevent oncogenesis due to the protective effect against potent genotoxic carcinogens. As immunostimulating agent, which acts through the activation of macrophages and NK cell cytotoxicity, b-glucan can inhibit tumor growth in promotion stage too. Antiangiogenesis can be one of the pathways through which b-glucans can reduce tumor proliferation, prevent tumor metastasis. b-Glucan as adjuvant to cancer chemotherapy and radiotherapy demonstrated the positive role in the restoration of hematopiesis following by bone marrow injury. Immunotherapy using monoclonal antibodies is a novel strategy of cancer treatment. These antibodies activate complement system and opsonize tumor cells with iC3b fragment. In contrast to microorganisms, tumor cells, as well as other host cells, lack b-glucan as a surface component and cannot trigger complement receptor 3-dependent cellular cytotoxicity and initiate tumor-killing activity. This mechanism could be induced in the presence of b-glucans.
Type Journal article
Language English
Publication date 2007