Nutritional research and fetal programming: parental nutrition influences the structure and function of the organs / Investigación nutricional y programación fetal: la nutrición parental influye en la estructura y función de los órganos

SUMMARY: Rodents are animals extensively used in biomedical and nutrition research, a necessary step before the research in humans. The composition and type of administration of the experimental diets are relevant and should be thought, considering each type of animal used in the research. It is particularly important to consider, among others, the metabolic differences between species and food needs in macro- and micronutrients to avoid possible bias. The American Institute of Nutrition (AIN) made recommendations for rodents, adapted to the period of growth (AIN-93G), which are pivotal in fetal programming studies. The experiments can be compared among different studies and better translated into humans, considering these limitations in the nutrition of parents and offspring. The review addresses different compositions of experimental food for rodents during development with the ability to induce fetal programming in the offspring and chronic diseases in adulthood due to the nutrition of the mother and father. The 'developmental origins of health and disease' (DOHaD) concept due to maternal nutrition is commented considering the protein restriction, vitamin D restriction, obesity, and intake of fructose or fish-oil. The 'paternal origins of health and disease transmission' (POHaD), because of the nutritional state of the father, were also analyzed in the review, primarily considering the obesity of the father. The review proposes some diet compositions to experimental research considering varied nutritional situations, hoping to assist young researchers or researches not familiar with experimental diet manipulations in the elaboration of the projects.

RESUMEN: Los roedores son animales utilizados frecuentemente en la investigación biomédica y nutricional, un paso necesario antes de la investigación en humanos. La composición y el tipo de administración de las dietas experimentales son relevantes y se debe considerar cada tipo de animal utilizado en los estudios. Es particularmente importante considerar las diferencias metabólicas entre las especies y las necesidades alimentarias de macro y micronutrientes para evitar posibles sesgos. El Instituto Americano de Nutrición (AIN) estableció recomendaciones para los roedores, adaptadas al período de crecimiento (AIN-93G), que son fundamentales en los estudios de programación fetal. Los experimentos se pueden comparar entre diferentes estudios y aplicar en humanos, considerando estas limitaciones en la nutrición de padres e hijos. La revisión aborda diferentes composiciones de alimentos para estudios experimentales en roedores durante su desarrollo, con la capacidad de inducir programación fetal en la descendencia y enfermedades crónicas en la adultez, considerando la nutrición de los padres. El concepto de 'orígenes del desarrollo de la salud y la enfermedad' (DOHaD) debido a la nutrición materna se comenta considerando la restricción de proteínas, la restricción de vitamina D, la obesidad y la ingesta de fructosa o aceite de pescado. Los 'orígenes paternos de la salud y transmisión de enfermedades' (POHaD), debido al estado nutricional del padre, también fueron analizados considerando principalmente la obesidad del padre. La revisión propone algunas composiciones dietéticas a la investigación experimental considerando situaciones nutricionales variadas, con la esperanza de ayudar a jóvenes investigadores o investigadores no familiarizados con las manipulaciones experimentales de la dieta en la elaboración de los proyectos.

Obese fathers lead to an altered metabolism and obesity in their children in adulthood: review of experimental and human studies / Pais obesos levam a metabolismo alterado e obesidade em seus filhos na idade adulta: revisão de estudos experimentais e humanos

Abstract Objective: To discuss the recent literature on paternal obesity, focusing on the possible mechanisms of transmission of the phenotypes from the father to the children. Sources: A non-systematic review in the PubMed database found few publications in which paternal obesity was implicated in the adverse transmission of characteristics to offspring. Specific articles on epigenetics were also evaluated. As the subject is recent and still controversial, all articles were considered regardless of year of publication. Summary of findings: Studies in humans and animals have established that paternal obesity impairs their hormones, metabolism, and sperm function, which can be transmitted to their offspring. In humans, paternal obesity results in insulin resistance/type 2 diabetes and increased levels of cortisol in umbilical cord blood, which increases the risk factors for cardiovascular disease. Notably, there is an association between body fat in parents and the prevalence of obesity in their daughters. In animals, paternal obesity led to offspring alterations on glucose-insulin homeostasis, hepatic lipogenesis, hypothalamus/feeding behavior, kidney of the offspring; it also impairs the reproductive potential of male offspring with sperm oxidative stress and mitochondrial dysfunction. An explanation for these observations (human and animal) is epigenetics, considered the primary tool for the transmission of phenotypes from the father to offspring, such as DNA methylation, histone modifications, and non-coding RNA. Conclusions: Paternal obesity can induce programmed phenotypes in offspring through epigenetics. Therefore, it can be considered a public health problem, affecting the children's future life.

Resumo Objetivo: Discutir a literatura recente sobre obesidade paterna, focalizando os possíveis mecanismos de transmissão dos fenótipos do pai para os filhos. Fontes: Uma revisão não-sistemática no banco de dados PubMed encontrou poucas publicações com obesidade paterna implicada com a transmissão adversa das características à prole. Artigos específicos sobre epigenética também foram avaliados. Como o assunto é recente e ainda controverso, todos os trabalhos foram considerados independentemente do ano de publicação. Resumo dos achados: Estudos em seres humanos e animais estabeleceram que a obesidade do pai prejudica seus hormônios, metabolismo e função espermática, que pode ser transmitida à prole. Em humanos, a obesidade paterna resulta em resistência à insulina / diabetes tipo 2 e aumento do nível de cortisol no sangue do cordão umbilical, que aumenta os fatores de risco para doença cardiovascular. Notavelmente, existe associação entre a gordura corporal nos pais e a prevalência de obesidade em suas filhas. Em animais, pais obesos condicionam, na prole, a homeostase glicose-insulina, lipogênese hepática, hipotálamo / comportamento alimentar, rim, prejudicam o potencial reprodutivo da prole masculina com estresse oxidativo espermático e disfunção mitocondrial. Uma explicação para estas observações (humanos e animais) é a epigenética, considerada a ferramenta básica para a transmissão de fenótipos do pai à prole, como a metilação do DNA, modificações nas histonas, e RNA não codificante. Conclusões: A obesidade paterna pode induzir fenótipos programados na prole através da epigenética. Portanto, a obesidade paterna pode ser considerada um problema de saúde pública, afetando a vida futura das crianças.

Combined parental obesity augments single-parent obesity effects on hypothalamus inflammation, leptin signaling (JAK/STAT), hyperphagia, and obesity in the adult mice offspring.

We aimed to evaluate the effects of maternal and/or paternal obesity on offspring body mass, leptin signaling, appetite-regulating neurotransmitters and local inflammatory markers. C57BL/6 mice received standard chow (SC, lean groups) or high-fat diet (HF, obese groups) starting from one month of age. At three months, HF mice became obese relative to SC mice. They were then mated as follows: lean mother and lean father, lean mother and obese father, obese mother and lean father, and obese mother and obese father. The offspring received the SC diet from weaning until three months of age, when they were sacrificed. In the offspring, paternal obesity did not lead to changes in the Janus kinase (JAK)/signal transducer and activation of the transcription (STAT) pathway or feeding behavior but did induce hypothalamic inflammation. On the other hand, maternal obesity resulted in increased weight gain, hyperleptinemia, decreased leptin OBRb receptor expression, JAK/STAT pathway impairment, and increased SOCS3 signaling in the offspring. In addition, maternal obesity elevated inflammatory markers and altered NPY and POMC expression in the hypothalamus. Interestingly, combined parental obesity exacerbated the deleterious outcomes compared to single-parent obesity. In conclusion, while maternal obesity is known to program metabolic changes and obesity in offspring, the current study demonstrated that obese fathers induce hypothalamus inflammation in offspring, which may contribute to the development of metabolic syndromes in adulthood.

Sexual dimorphism in fat distribution and metabolic profile in mice offspring from diet-induced obese mothers.

AIMS: To investigate whether the effects of diet-induced obesity in mothers are passed on to their offspring fed a control diet in a gender-specific manner. MAIN METHODS: Mother mice received either standard chow (SC; 17% energy from fat) or high-fat (HF; 49% energy from fat) diet for eight weeks pre-pregnancy until lactation. After weaning (at 21 days of age), offspring received SC diet and were divided into four groups according to the mother's diet (Mo): male Mo-SC, female Mo-SC, male Mo-HF, and female Mo-HF. Stereology, Elisa and western blotting were performed. KEY FINDINGS: HF diet-fed mothers were overweight, and had metabolic abnormalities, all of which were found in their adult offspring. Male Mo-HF offspring had higher cholesterol, triglycerides, leptin and insulin levels and lower circulating adiponectin than female Mo-HF offspring. Mo-HF offspring of both genders had higher expression of tumor necrosis factor-alpha, interleukin-6 and leptin and lower expression of adiponectin than Mo-SC offspring; however, male Mo-HF were more affected than female Mo-HF offspring for these variables, demonstrating sexual dimorphism. SIGNIFICANCE: Exposure to HF diet is effective in inducing obesity and metabolic alterations in mothers, and this phenotype can be passed on to their offspring. An adverse pattern in the body fat distribution in males probably has favored the intensification of a pro-inflammatory profile compared with females. In adulthood, the male offspring responds to the maternal obesity more than the female offspring, indicating a relevant sexual dimorphism that is a novel finding in this animal study.