👤 Anthony LaPorta

The maternal environment during gestation influences fetal development, with long-lasting effects on postnatal health and productivity. This study evaluated the effect of prenatal heat stress (PNHS) on blood DNA methylation of dairy calves immediately after birth and whether such modifications persist into early life. Holstein calves were born to dams exposed to either PNHS (n = 36, temperature-humidity index >68, access to shade of a freestall barn) or prenatal cooling (PNTN; n = 37, access to shade and evaporative cooling) during the last 54 ± 5 d of gestation. Whole-genome enzymatic DNA methyl sequencing was performed on blood samples collected at birth (d 0; n = 3 PNHS, n = 5 PNTN) and 1 wk post-weaning (d 63 of age; n = 8 PNHS, n = 8 PNTN). From birth onward, all calves were actively cooled and managed under the same conditions. At birth, 682,898 differentially methylated cytosines (DMC) were identified genome-wide. Principal component analysis using 55,304 DMC located in genes expressed in blood cells revealed a clear clustering by prenatal treatment. However, at weaning, clear clustering by treatment was no longer observed using 23,977 treatment-associated DMC in blood-expressed genes, despite 97,289 DMC persisting genome-wide from birth to weaning. Immune cell deconvolution showed only minor differences in granulocytes (d 0) and CD4/CD8 Show less

The objective of this study was to investigate possible immune cytokine trends throughout a week-long surgical simulation mass-casualty training session in order to determine the effects of stress inoculation on the immune system. Thirty-seven military medical students participated in a hyper-realistic surgical simulation training event conducted at Strategic Operations site in San Diego, California. Salivary samples were collected every morning of the stress training exercise for 4 consecutive days. Cortisol, along with a panel of 42 immune cytokines, was measured using multiplex enzyme-linked immunosorbent assays from Eve Technologies. The determined concentrations were averaged and plotted on a scatter plot, and then points were fit to a second-order polynomial trendline of best fit to measure. The cytokines epidermal growth factor, growth-related oncogene-α, interleukin (IL)-1α, and platelet-derived growth factor-AA followed a noted pattern of cortisol decrease throughout the week. In addition, cytokines IL-27, granulocyte colony stimulating factor, IL-10, and IL-13 demonstrated a late peak, followed by a return to baseline at the conclusion of training. Finally, the cytokine monocyte chemoattractant protein-1 displayed a decline throughout the week followed by an increase on the last day of stress training. Altogether, these results help to identify important biomarkers that may help to improve long-term stress adaptation and prevent post-traumatic stress disorder following exposure to repeated stress. Show less