Your search keyword '"Clarke, Geoffrey D."' showing total 4 results

1. Antenatal Synthetic Glucocorticoid Exposure at Human Therapeutic Equivalent Doses Predisposes Middle-Age Male Offspring Baboons to an Obese Phenotype That Emerges With Aging

Author

Huber, Hillary F., Kuo, Anderson H., Li, Cun, Jenkins, Susan L., Gerow, Kenneth G., Clarke, Geoffrey D., and Nathanielsz, Peter W.

Published

2019

2. The nonhuman primate hypothalamo-pituitary-adrenal axis is an orchestrator of programming-aging interactions: role of nutrition.

Author

Nathanielsz, Peter W, Huber, Hillary F, Li, Cun, Clarke, Geoffrey D, Kuo, Anderson H, and Zambrano, Elena

Subjects

ADRENAL gland physiology, HYPOTHALAMUS physiology, MALNUTRITION, AGING, BLOOD circulation, HUMAN growth, HYDROCORTISONE, MOTHERS, NUTRITION, NUTRITIONAL requirements, PITUITARY gland, PRIMATES, COMORBIDITY, FETAL development

Abstract

Developmental programming alters life-course multi-organ function and significantly affects life-course health. Recently, interest has developed in how programming may influence the rate of aging. This review describes interactions of nutrition and programming-aging interactions in hypothalamo-pituitary-adrenal (HPA) development and function from fetal development to old age. A full picture of these interactions requires data on levels of HPA activity relating to the hypothalamic, adrenal cortical, circulating blood, and peripheral cortisol metabolism. Data are provided from studies on our baboon, nonhuman primate model both across the normal life course and in offspring of maternal baboons who were moderately undernourished by a global 30% diet reduction during pregnancy and lactation. Sex differences in offspring outcomes in response to similar challenges are described. The data clearly show programming of increased HPA axis activity by moderate maternal undernutrition. Increased postnatal circulating cortisol concentrations are related to accelerated aging of the brain and cardiovascular systems. Future studies should address peripheral cortisol production and the influence of aging advantage in females. These data support the view that the HPA is an orchestrator of interactions of programming-aging mechanisms. [ABSTRACT FROM AUTHOR]

Published

2020

3. Cardiac remodelling in a baboon model of intrauterine growth restriction mimics accelerated ageing.

Author

Kuo, Anderson H., Li, Cun, Li, Jinqi, Huber, Hillary F., Nathanielsz, Peter W., and Clarke, Geoffrey D.

Subjects

FETAL growth retardation, HEART disease diagnosis, FETAL heart, FETAL development, VENTRICULAR remodeling, CARDIAC magnetic resonance imaging, PHYSIOLOGY

Abstract

Key points Rodent models of intrauterine growth restriction (IUGR) successfully identify mechanisms that can lead to short-term and long-term detrimental cardiomyopathies but differences between rodent and human cardiac physiology and placental-fetal development indicate a need for models in precocial species for translation to human development., We developed a baboon model for IUGR studies using a moderate 30% global calorie restriction of pregnant mothers and used cardiac magnetic resonance imaging to evaluate offspring heart function in early adulthood., Impaired diastolic and systolic cardiac function was observed in IUGR offspring with differences between male and female subjects, compared to their respective controls., Aspects of cardiac impairment found in the IUGR offspring were similar to those found in normal controls in a geriatric cohort., Understanding early cardiac biomarkers of IUGR using non-invasive imaging in this susceptible population, especially taking into account sexual dimorphisms, will aid recognition of the clinical presentation, development of biomarkers suitable for use in humans and management of treatment strategies., Abstract Extensive rodent studies have shown that reduced perinatal nutrition programmes chronic cardiovascular disease. To enable translation to humans, we developed baboon offspring cohorts from mothers fed ad libitum (control) or 70% of the control ad libitum diet in pregnancy and lactation, which were growth restricted at birth. We hypothesized that intrauterine growth restriction (IUGR) offspring hearts would show impaired function and a premature ageing phenotype. We studied IUGR baboons (8 male, 8 female, 5.7 years), control offspring (8 male, 8 female, 5.6 years - human equivalent approximately 25 years), and normal elderly (OLD) baboons (6 male, 6 female, mean 15.9 years). Left ventricular (LV) morphology and systolic and diastolic function were evaluated with cardiac MRI and normalized to body surface area. Two-way ANOVA by group and sex (with P < 0.05) indicated ejection fraction, 3D sphericity indices, cardiac index, normalized systolic volume, normalized LV wall thickness, and average filling rate differed by group. Group and sex differences were found for normalized LV wall thickening and normalized myocardial mass, without interactions. Normalized peak LV filling rate and diastolic sphericity index were not correlated in control but strongly correlated in OLD and IUGR baboons. IUGR programming in baboons produces myocardial remodelling, reduces systolic and diastolic function, and results in the emergence of a premature ageing phenotype in the heart. To our knowledge, this is the first demonstration of the specific characteristics of cardiac programming and early life functional decline with ageing in an IUGR non-human primate model. Further studies across the life span will determine progression of cardiac dysfunction. [ABSTRACT FROM AUTHOR]

Published

2017

4. Integrated multi-omics analysis of brain aging in female nonhuman primates reveals altered signaling pathways relevant to age-related disorders.

Author

Cox, Laura A., Puppala, Sobha, Chan, Jeannie, Zimmerman, Kip D., Hamid, Zeeshan, Ampong, Isaac, Huber, Hillary F., Li, Ge, Jadhav, Avinash Y.L., Wang, Benlian, Li, Cun, Baxter, Mark G., Shively, Carol, Clarke, Geoffrey D., Register, Thomas C., Nathanielsz, Peter W., and Olivier, Michael

Subjects

*MULTIOMICS, *CELLULAR signal transduction, *GABA, *PRIMATES, *AGING

Abstract

The prefrontal cortex (PFC) has been implicated as a key brain region responsible for age-related cognitive decline. Little is known about aging-related molecular changes in PFC that may mediate these effects. To date, no studies have used untargeted discovery methods with integrated analyses to determine PFC molecular changes in healthy female primates. We quantified PFC changes associated with healthy aging in female baboons by integrating multiple omics data types (transcriptomics, proteomics, metabolomics) from samples across the adult age span. Our integrated omics approach using unbiased weighted gene co-expression network analysis to integrate data and treat age as a continuous variable, revealed highly interconnected known and novel pathways associated with PFC aging. We found Gamma-aminobutyric acid (GABA) tissue content associated with these signaling pathways, providing 1 potential biomarker to assess PFC changes with age. These highly coordinated pathway changes during aging may represent early steps for aging-related decline in PFC functions, such as learning and memory, and provide potential biomarkers to assess cognitive status in humans. [ABSTRACT FROM AUTHOR]

Published

2023