Biochemical and Biological Effects of Organotins

In spite of the wealth of studies, the intimate mechanisms of the toxic action of organotin compounds are not entirely established and our knowledge needs to be continuously reviewed and updated. This e-book aims at gathering the emerging data on organotin effects on animals, with special focus on their biochemical interactions with biomolecules, on which toxicity mechanisms are often founded. Chapter by chapter, the biological and biochemical effects of organotins are unravelled by a careful analysis of the most recent findings, paying special attention to the contaminant action mechanisms at cellular and molecular level. In the first chapter, the legislation on organotin-based antifouling paints and organotin contamination levels of aquatic environments are reviewed. Special attention is paid to the most known toxic effect, namely imposex, which is a irreversible superimposition of male-type genitalia in female gastropod mollusks. Imposex mirrors environmental concentrations of the most toxic organotins. The structural and chemical properties of toxic organotin compounds are carefully examined in Chapter 2, with special focus on their biological and pharmacological activities. In Chapter 3 the recent discovery of direct high affinity interactions between trialkyltins and the family of nuclear hormone receptors which function as ligand dependent transcription factors for lipophilic endocrine hormones in vertebrates and invertebrates is presented. Studies on the interactions of organotins with model and natural biological membranes are reported in Chapter 4. The ability of organotins to act as endocrine-disrupting chemicals is considered in Chapter 5, focusing on TBT- induced imposex in neogastropods. Chapter 6 embraces the most recent knowledge on the molecular and biochemical mechanisms involved in lipid homeostasis disruption within several metazoan phyla, from mollusks to amphibians, teleosts and mammals. In Chapter 7 the organotin-driven genotoxicity and immunotoxicity, which among toxic effects are the most important in affecting survival, are reviewed in mammals, fish and aquatic invertebrates. Effects on mitochondria, one of the main targets of organotins are considered in Chapter 8. The impairment of mitochondrial functions and the consequent ATP synthesis depletion may play a crucial role as molecular basis of several toxic effects of organotins. Chapter 9 reviews the impact of organotin exposure on hydromineral homeostasis in aquatic organisms of various phyla by examining the histophathological, physiological and molecular interactions of organotin compounds with relevant enzymes, membranes, the endocrine system, and the consequential ramifications for individuals, populations and community structure in aquatic ecosystems. Recent research on the mechanisms of organotin-induced apoptosis is reviewed in Chapter 10. The modulation of apoptosis, involved in ontogenesis, development and cell turnover, is a critical step of cellular toxicity. Chapter 11 reviews the impacts of organotins on humans and presents major applications of organotins, their entry in the food chain, human exposure and effects of organotins. Once overviewed the broad susceptibility to organotins in literature data, Chapter 12 underlines the astonishing analogies of the toxic action of these chemicals in the animal kingdom on the one hand and, on the other, the variegated toxicity displayed in different cells, tissues and species.