Los contaminantes ambientales bifenilos policlorinados (PCB) y sus efectos sobre el Sistema Nervioso y la salud

SUMMARY Environmental pollution is a world-wide issue which is a matter for concern among the international community. Great industrialized cities are the most polluted and Mexico City is among them. However, pollution affects places which are far away from contaminated urban areas, thus damaging eco-systems. Environmental pollution is responsible for an alarming and increasing list of illnesses in humans, animals and plants. This has generated an international interest in this problem. From the 187 chemical agents considered toxic for living organisms, the Inter-Government Committee for the Negotiation of Persistent Organic Pollutants (Pops) has catalogued 12 as the most hazardous for life. Among them are the so-called polychlorinated biphenyls (PCBs). PCBs are a family of 209 structurally chlorinated compounds made up of chlorine, carbon and hydrogen. These compounds are chemically and thermally stable, insoluble in water, non-flammable, electrically resistant, with low volatility at normal temperatures, and bio-degradable only at high temperatures (1200°C). One of their main disadvantages is that they are subject to a process of bioaccumulation where their concentration increases along the food chain. Their physical properties make them widely used in industry, mainly in the electrical and building areas. Not long after PCBs were manufactured, it was determined that food for human intake such as milk, fish and eggs, to mention just a few, presented higher PCBs concentrations than those allowed by the Organism for US Environmental Protection (0.0005mg/l). It has been demonstrated that PCBs can cause damage to the endocrine, immunologic and Nervous Systems, among others. The underlying mechanism of action of these compounds is through the activation of the aril hydrocarbon receptor (AhR), a ligand-dependent cytosolic transcription factor. PCBs act like ligands and, given their lipophilic properties, enter cells by passive diffusion. Two co-chaperone proteins are bound to AhR to form an oligomer which dissociates when binding to a PCB. After ligand binding, a heterodimer is formed which translocates into the nucleus and links to specific DNA regions; this in turn regulates the transcription velocity of specific genes and produces genetic alterations that modify processes and functions in the cell. PCBs belong in the group of chemicals considered endocrine disruptors. Damage caused by these compounds can be irreversible. In the endocrine system they interfere with the production and regulation of steroid and thyroid hormones, acting as agonists or antagonists of hormone receptors. They impair endocrine metabolic pathways, such as those of thyroid hormones (T3 and T4), and inhibit carrier proteins such as transthyretin. Contaminants that harm the endocrine system also affect the reproductive function and disrupt various aspects of sexuality. In males, PCBs inhibit the synthesis of testosterone, alter masculinity, reduce sperm motility and the capacity of binding and penetrating the ovule, induce changes in the shape of the penis as well as its size, retard or inhibit testicle descent, and can generate testicular cancer. In females, they can cause early menarche (first menstruation), enhanced duration of menstrual bleeding, urogenital malformations, endometriosis, spontaneous abortion, fetal death, premature delivery and low-weight in offspring. Our group, as well as other research groups, has encountered that PCB administration to gestating rats causes an increment in offspring mortality, fetal miscarriages, low bodily weight of the offspring and a reduction in the number of males per litter. The immunological system is sensitive to chemicals such as PCBs which originate an immunological response; they act as immunotoxins that cause thymus atrophy, affect innate immunity, compromise host resistance and immunity mediated by B and T cells, as well as humoral immunity. PCBs and their metabolites are carcinogenic and act as general cancer promoters by enhancing the effects of other substances through the generation of oxygen reactive compounds that can induce DNA oxidative damage. Chronic PCB exposure can cause chromosomal aberrations; these compounds have been related to all types of cancer: mammary gland, liver, biliary tract, gastrointestinal, skin (especially malignant melanomas), lung, pancreas and brain. There is evidence that organisms are more vulnerable to PCB exposure during the early embryonic stages. These compounds can cross the placenta and affect the fetus; when they are present in human milk they keep the offspring under high PCB levels thus altering development. In addition, they can contribute to the interruption of growth and development of brain, organs and tissues. As a result, malfunctions or miscarriage occur. PCBs are involved in the neurodegeneration process since they affect dopaminergic neurons in caudate nucleus, ventral tegmental area and substantia nigra. These compounds disrupt neuronal mechanisms such as vesicular transport and dopamine release which lead to cellular death similar to that described for diseases such as Parkinson’s. Perinatal exposure to PCBs is associated with neurodevelopmental deficiencies of infants which consist of dysfunctions at the neuropsychological level such as in verbal learning