Cortisol promotes stress tolerance via DAF-16 in Caenorhabditis elegans.

In this study, we studied the effects of cortisol and cortisone on the age-related decrease in locomotion in the nematode Caenorhabditis elegans and on the tolerance to heat stress at 35 °C and to oxidative stress induced by the exposure to 0.1% H2O2. Changes in mRNA expression levels of C. elegans genes related to stress tolerance were also analyzed. Cortisol treatment restored nematode movement following heat stress and increased viability under oxidative stress, but also shortened worm lifespan. Cortisone, a cortisol precursor, also restored movement after heat stress. Additionally, cortisol treatment increased mRNA expression of the hsp-12.6 and sod-3 genes. Furthermore, cortisol treatment failed to restore movement of daf-16-deficient mutants after heat stress, whereas cortisone failed to restore the movement of dhs-30-deficient mutants after heat stress. In conclusion, the results suggested that cortisol promoted stress tolerance via DAF-16 but shortened the lifespan, whereas cortisone promoted stress tolerance via DHS-30.

Potential energy shift of the Fermi level at plasmonic structures for light-energy conversion determined by graphene-based Raman measurements.

Single layer graphene was used to determine the electrochemical potential of plasmonic nano-structures for photoelectrochemical energy conversions. From electrochemical Raman measurements of the graphene layer under near-infrared light, illumination has revealed the relationship between the photoenergy conversion ability and the Fermi level of the plasmonic structure. The determination is based on in situ monitoring of G and 2D Raman bands of the graphene layer on plasmonic structures. The correlation plots of G and 2D bands show the dependence on the photoconversion ability. The present electrochemical Raman measurements provide detailed understanding of the plasmon-induced charge transfer process for further developments on the ability.

Oxytocin promotes heat stress tolerance via insulin signals in Caenorhabditis elegans.

Oxytocin, has various physiological functions that have been well studied and many that remain unknown. Here, we aimed to determine new physiological functions of oxytocin using Caenorhabditis elegans. Oxytocin treatment promoted the restoration of movement after heat stress and enhanced the viability under heat stress. However, oxytocin had no effect on the life span and only little effect on the oxidative stress tolerance. In contrast, oxytocin treatment didn't promote the restoration of movement or enhance the viability of deficient mutants of ntr-1/2, which is the gene encoding the oxytocin receptor. In addition, for mutants of daf-16, daf-2, tax-4, and some insulin-like peptides, the heat stress tolerance effect by oxytocin was canceled. Furthermore, oxytocin increased the expression levels of the DAF-16 target genes. Our results suggest that oxytocin treatment promoted the heat stress tolerance of C. elegans via the insulin/IGF-1 signaling pathway.