Paternal programming of breast cancer risk in daughters in a rat model: opposing effects of animal- and plant-based high-fat diets.

BACKGROUND: Although 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. METHODS: Male 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. RESULTS: Compared 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. CONCLUSIONS: Our findings highlight the importance of paternal nutrition in affecting future generations' risk of developing breast cancer.

Paternal nutrition and cancer programming: the influence of selenium deficiency or supplementation on the susceptibility of female offspring to chemically-induced mammary carcinogenesis / Nutrição paterna e programação do câncer: influência da deficiência ou suplementação com selênio na susceptibilidade da prole feminina à carcinogênese mamária quimicamente induzida

Breast cancer is an important public health problem. As mammary gland development is a dynamic process that initiates in embryonic life, recent evidence show that in-utero life exposure to maternal nutritional factors can alter mammary gland development and program breast cancer risk in adult life. Even tough studies focus on maternal nutrition, recent evidence show that paternal nutritional factors in-utero and during preconception also affects their female offspring mammary gland development and breast cancer susceptibility in adult life. Studies highlight epigenetic modulation of gene expression in the mammary gland as possible breast cancer programming underlying mechanisms. Selenium is a micronutrient with essential role in central aspects of embryogenesis, male fertility and that has been extensively studied as a chemopreventive agent in several breast cancer models. Among selenium possible mechanisms of action, modulation of cell proliferation, apoptosis, DNA damage, gene expression and epigenetic marks are highlighted. Thus, a rat experiment was conducted to evaluate whether paternal selenium deficiency or supplementation during preconception could affect mammary gland development and breast cancer risk, as well as possible molecular mechanisms involved. Four-week old male Sprague-Dawley rats were exposed to experimental diets (AIN93G) containing 0.15 (control), 0.05 (deficient) and 1ppm (supplemented) of selenium as sodium selenate for 9 weeks and mated with control females. At 7-week old, mammary carcinogenesis was induced in their female offspring by oral administration of 7,12 dymethylbenz[a] anthracene and mammary neoplasia development was evaluated. Paternal selenium deficiency during preconception altered mammary gland development as increased terminal end buds (TEBs) number, epithelial elongation and cell proliferation and decreased apoptosis that were associated with increased breast cancer risk (higher incidence and grade tumors). In addition, paternal selenium deficiency during preconception induced molecular alterations in the mammary gland of the female offspring such as global DNA hypomethylation, increased global levels of H3K27me3 and altered expression of genes related to early life and mammary gland development, apoptosis, cell cycle control, and DNA damage repair. Paternal selenium supplementation during preconception on the other hand did not influence breast cancer programing. Our data show that breast cancer risk can be determined in early-life stages trough the male germline molecular modulation and preconception as an important window of opportunity to start breast cancer prevention strategies. Assuring and adequate selenium intake by men could be a possible starting point

O câncer de mama é um importante problema de saúde pública. O desenvolvimento da glândula mamária é um processo dinâmico que se inicia na vida intrauterina e evidências recentes mostram que a exposição do feto a fatores nutricionais maternos altera o desenvolvimento da glândula mamária e a susceptibilidade ao câncer de mama na vida adulta. Mesmo com um maior foco na nutrição materna, evidências recentes apontam que a nutrição paterna no período intrauterino e de preconcepção também afetam o desenvolvimento da glândula mamária e o risco de câncer de mama da sua prole feminina na vida adulta. Estudos apontam a modulação epigenética da expressão de genes na glândula mamária como possíveis mecanismos envolvidos na programação do câncer de mama. O selênio é um micronutriente com papel essencial em aspectos centrais da embriogênese, fertilidade masculina e que tem sido extensivamente estudado como um agente quimiopreventivo em diferentes modelos de câncer de mama. Dentre os possíveis mecanismos de ação do selênio, destacam-se a capacidade de modulação da proliferação celular, apoptose, danos do DNA e da expressão de genes e mecanismos epigenéticos. Dessa forma, foi conduzido um experimento em ratos para avaliar se a deficiência ou suplementação paterna com selênio durante o período de preconcepção poderia afetar na prole feminina o desenvolvimento da glândula mamária e o risco ao câncer de mama na vida adulta, assim como possíveis mecanismos moleculares envolvidos. Ratos machos da linhagem Sprague-Dawley com 4 semanas de vida foram submetidos à dieta experimental AIN93G contendo 0,15 (controle); 0,05 (deficiente) e 1ppm (suplementada) com selênio na forma de selenato de sódio por 9 semanas e acasalados com fêmeas controle. Com 7 semanas de vida, a carcinogênese mamária foi iniciada na prole feminina através da administração oral do carcinógeno químico 7,12 dimetilbenz[a] antraceno e o desenvolvimento das neoplasias mamárias foi avaliado. A deficiência paterna de selênio causou alterações no desenvolvimento da glândula mamária da prole feminina como aumento no número de terminal end buds (TEBs), aumento da elongação do epitélio mamário, aumento da proliferação celular e diminuição da apoptose que foram associados ao aumento do risco do câncer de mama (maior incidência e agressividade das lesões). Além disso, a deficiência paterna de selênio causou alterações de nível molecular na glândula mamária da prole feminina como hipometilação global, aumento dos níveis globais de H3K27me3 e alteração na expressão de genes relacionados ao desenvolvimento no início da vida e da glândula mamária, apoptose, controle de ciclo celular e reparo de danos no DNA. A suplementação paterna com selênio não foi influenciou o desenvolvimento da glândula mamária e o risco ao câncer de mama na vida adulta. Nossos resultados mostram que o risco do câncer de mama pode ser determinado no início da vida através de influências paternas por meio da modulação de mecanismos moleculares e que o período de preconcepção se caracteriza como uma importante janela de susceptibilidade para iniciar estratégias de diminuição do risco do câncer de mama. Assegurar uma ingestão adequada de selênio por homens pode ser um possível ponto de partida