BackgroundAlthough males contribute half of the embryo’s genome, only recently has interest begun to be directed toward the potential impact of paternal experiences on the health of offspring. While there is evidence that paternal malnutrition may increase offspring susceptibility to metabolic diseases, the influence of paternal factors on a daughter’s breast cancer risk has been examined in few studies.MethodsMale Sprague-Dawley rats were fed, before and during puberty, either a lard-based (high in saturated fats) or a corn oil-based (high in n-6 polyunsaturated fats) high-fat diet (60 % of fat-derived energy). Control animals were fed an AIN-93G control diet (16 % of fat-derived energy). Their 50-day-old female offspring fed only a commercial diet were subjected to the classical model of mammary carcinogenesis based on 7,12-dimethylbenz[a]anthracene initiation, and mammary tumor development was evaluated. Sperm cells and mammary gland tissue were subjected to cellular and molecular analysis.ResultsCompared with female offspring of control diet-fed male rats, offspring of lard-fed male rats did not differ in tumor latency, growth, or multiplicity. However, female offspring of lard-fed male rats had increased elongation of the mammary epithelial tree, number of terminal end buds, and tumor incidence compared with both female offspring of control diet-fed and corn oil-fed male rats. Compared with female offspring of control diet-fed male rats, female offspring of corn oil-fed male rats showed decreased tumor growth but no difference regarding tumor incidence, latency, or multiplicity. Additionally, female offspring of corn oil-fed male rats had longer tumor latency as well as decreased tumor growth and multiplicity compared with female offspring of lard-fed male rats. Paternal consumption of animal- or plant-based high-fat diets elicited opposing effects, with lard rich in saturated fatty acids increasing breast cancer risk in offspring and corn oil rich in n-6 polyunsaturated fatty acids decreasing it. These effects could be linked to alterations in microRNA expression in fathers’ sperm and their daughters’ mammary glands, and to modifications in breast cancer-related protein expression in this tissue.ConclusionsOur findings highlight the importance of paternal nutrition in affecting future generations’ risk of developing breast cancer.Electronic supplementary materialThe online version of this article (doi:10.1186/s13058-016-0729-x) contains supplementary material, which is available to authorized users.
Breast cancer is a global public health problem and accumulating evidence indicates early-life exposures as relevant factors in the disease risk determination. Recent studies have shown that paternal nutrition can influence offspring health including breast cancer risk. Selenium is a micronutrient with essential role in central aspects of embryogenesis, male fertility and cancer and that has been extensively studied as a chemopreventive agent in several breast cancer experimental models. Thus, we designed an animal study to evaluate whether paternal selenium deficiency or supplementation during preconception could affect the female offspring mammary gland development and breast cancer susceptibility. Male Sprague-Dawley rats were fed AIN93-G diet containing 0.15 ppm (control diet), 0.05 ppm (deficient diet) or 1 ppm (supplemented diet) of selenium for 9 weeks and mated with control female rats. Mammary carcinogenesis was induced with 7,12-dimethylbenz[a]anthracene (DMBA) in their female offspring. Paternal selenium deficiency increased the number of terminal end buds, epithelial elongation and cell proliferation in the mammary gland of the female rat offspring and these effects were associated with higher susceptibility to DMBA-induced mammary tumors (increased incidence and higher grade tumors). On the other hand, paternal selenium supplementation did not influence any of these parameters. These results highlight the importance of father's nutrition including selenium status as a relevant factor affecting daughter's breast cancer risk and paternal preconception as a potential developmental stage to start disease preventive strategies.
Resumo -O objetivo deste trabalho foi caracterizar genotipicamente, e construir o mapa de ligação e mapear locos associados a características quantitativas (QTL) de desempenho e carcaça no cromossomo 5 de linhagens brasileiras galinhas. Utilizou-se uma população F 2 CTCT, resultante do acasalamento entre machos da linhagem de postura CC e fêmeas da linhagem de corte TT. Um total de 356 animais foi genotipado com 11 marcadores microssatélites. A caracterização genotípica foi realizada pela estimação dos seguintes parâmetros genotípicos: conteúdo de informação polimórfica (0,45-0,69), heterozigosidades observada (0,48-1,00) e esperada (0,48-0,74), e número de alelos por loco (3-5). Empregou-se o mapeamento por intervalo combinado à modelagem fenotípica por modelo misto, no mapeamento de QTL. O comprimento do mapa de ligação foi de 174,7 cM. Não foram constatadas inversões entre o mapa obtido, o mapa consenso e o genoma. Foram mapeados nove QTL, dos quais sete foram sugestivos ("log of odds", LOD≤1,5) e dois significativos ao nível cromossômico (LOD>3,0). Seis destes QTL são inéditos: conversão alimentar e eficiência alimentar dos 35 aos 41 dias de idade (significativo), pesos de cabeça e fígado, e triglicerídeos e triglicerídeos+colesterol. A população CTCT apresenta variabilidade genotípica, o mapa de ligação é similar ao mapa consenso e ao genoma, e novos QTL foram mapeados.Termos para indexação: avicultura, mapeamento por intervalo, marcadores microssatélites, locos de características quantitativas. Genomic regions associated with performance and carcass traits on chromosome 5 of Brazilian chicken linesAbstract -The objective of this work was to genotype, construct the linkage map and map quantitative trait loci (QTL) associated with performance and carcass on chromosome 5 of Brazilian chickens lines. It was used a F 2 CTCT chicken population, resulting from the crossing of males from a CC layer line with females from a TT broiler line. A total of 356 animals were genotyped with 11 microsatellite markers. Genotypic characterization was carried out by the estimation of the following genotypic parameters: polymorphic information content (0.45-0.69), observed (0.48-1.00) and expected (0.48-0.74) heterozygosities, and number of alleles per locus (3-5). QTL mapping used interval mapping combined with phenotypic modeling via mixed model. The length of the linkage map was 174.7 cM. No inversions were found between the obtained map, the consensus map, and the genome. Nine QTL were mapped, of which seven were suggestive (log of odds, LOD≤1.5) and two significant at the chromosome level (LOD>3.0). Six of these QTL are original: feed conversion and feed efficiency from 35 to 41 days of age (significative), weight of head and liver, and triglycerides and triglycerides+cholesterol. The CTCT population shows genotypic variability, the linkage map is similar to consensus map and genome, and new QTL were mapped.
GUIDO Luiza N. Paternal nutrition and cancer programming: the influence of selenium deficiency or supplementation on the susceptibility of female offspring to chemicallyinduced mammary carcinogenesis.
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