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      IgA1 levels in milk and serum samples from intestinal parasite-infected or normal puerperae

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          Abstract

          In this study, IgA1 levels in the milk and serum of puerperae were compared and a correlation was established between the levels of this immunoglobulin and the occurrence of parasitism. Eighty-three paired milk and serum samples were obtained from puerperal and IgA1 levels were analyzed. In addition, the presence of intestinal parasites in stool samples from these puerperae was determined. Twelve puerperae tested positive for intestinal parasites and all their samples presented an IgA1 ELISA Index > 1. There was a correlation between serum and milk IgA1 levels and puerperae with any parasite in their stool (r = 0.6723; p = 0.0166). This finding may reinforce the importance of breast-feeding for the protection of neonates.

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          Session 1: Feeding and infant development breast-feeding and immune function.

          The newborn receives, via the placenta, maternal IgG antibodies against the microbes present in its surroundings, but such antibodies have a pro-inflammatory action, initiating the complement system and phagocytes. Although the host defence mechanisms of the neonate that involve inflammatory reactivity are somewhat inefficient, this defence system can still have catabolic effects. Breast-feeding compensates for this relative inefficiency of host defence in the neonate by providing considerable amounts of secretory IgA antibodies directed particularly against the microbial flora of the mother and her environment. These antibodies bind the microbes that are appearing on the infant's mucosal membranes, preventing activation of the pro-inflammatory defence. The major milk protein lactoferrin can destroy microbes and reduce inflammatory responses. The non-absorbed milk oligosaccharides block attachment of microbes to the infant's mucosae, preventing infections. The milk may contain anti-secretory factor, which is anti-inflammatory, preventing mastitis in mothers and diarrhoea in infants. Numerous additional factors in the milk are of unknown function, although IL-7 is linked to the larger size of the thymus and the enhanced development of intestinal Tgammadelta lymphocytes in breast-fed compared with non-breast-fed infants. Several additional components in the milk may help to explain why breast-feeding can reduce infant mortality, protecting against neonatal septicaemia and meningitis. It is therefore important to start breast-feeding immediately. Protection is also apparent against diarrhoea, respiratory infections and otitis media. There may be protection against urinary tract infections and necrotizing enterocolitis, and possibly also against allergy and certain other immunological diseases, and tumours. In conclusion, breast-feeding provides a very broad multifactorial anti-inflammatory defence for the infant.
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            Innate immunity and human milk.

            Human neonates are born with an immature and naive acquired immune system, and many of the innate components of mucosal immunity are not fully developed. Thus, the innate immune system of human milk is an important complement to the mucosal barrier of the developing gut. The nursing mother provides her infant many protective agents through milk, a growing number of which have been identified as isolates of milk in laboratory models of infection. The number, the potency, and the importance of these protective agents are probably greater than previously thought. For example, many potent protective agents are not found in milk until digestion releases antimicrobial agents such as fatty acids and peptides. An alternate conformer of alpha-lactalbumin forms from milk in the stomach and inhibits cancer cells. Many of the protective constituents of human milk inhibit different aspects of a pathogenic process, creating a synergy, where much lower concentrations of each component become protective. Some components have a temporal and a spatial specificity that would cause their protective role to go unrecognized by most laboratory models of infection. Some protective components had remained underappreciated because of technical challenges in their isolation and testing. Recent reports suggest that human milk contains a highly potent mixture of protective agents that constitute an innate immune system, whereby the mother protects her infant from enteric and other diseases. These human-milk components may represent a rich source of novel classes of therapeutic agents against human pathogens.
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              Have gastrointestinal nematodes outwitted the immune system?

              K J Else (2005)
              Gastrointestinal (GI) nematodes are incredibly successful parasites. Choosing to live in an exposed extracellular niche, in confrontation with a potentially hostile environment, their persistent, chronic lifestyle is persuasive evidence in itself for their profound ability to modulate their hosts' immune response. Modulation is essential to avoid their own destruction but also subtly balanced to avoid compromising host survival. This review describes the early circumstantial evidence that gave clues to the immunomodulatory capabilities of the GI nematodes, the roles that T regulatory cells and alternatively activated macrophages play in this immunomodulation and provides examples of the types of specific parasite-derived factors that are known to modulate host immunity, potentiating parasite survival.
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                Author and article information

                Contributors
                Role: ND
                Role: ND
                Role: ND
                Role: ND
                Role: ND
                Journal
                mioc
                Memórias do Instituto Oswaldo Cruz
                Mem. Inst. Oswaldo Cruz
                Instituto Oswaldo Cruz, Ministério da Saúde (Rio de Janeiro )
                1678-8060
                August 2008
                : 103
                : 5
                : 511-513
                Affiliations
                [1 ] Instituto de Ciências Biomédicas
                [2 ] Universidade Federal de Uberlândia Brazil
                Article
                S0074-02762008000500020
                10.1590/S0074-02762008000500020
                42b78a69-430d-41d0-900e-5f34e652af7c

                http://creativecommons.org/licenses/by/4.0/

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                Product

                SciELO Brazil

                Self URI (journal page): http://www.scielo.br/scielo.php?script=sci_serial&pid=0074-0276&lng=en
                Categories
                PARASITOLOGY
                TROPICAL MEDICINE

                Parasitology,Infectious disease & Microbiology
                IgA1,breast-milk,puerperae,helminthes,intestinal parasites

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