Objective: Several studies have reported the therapeutic effects of phytoncides on various mental disorders. However, little is known about the therapeutic effects of phytoncides on mild cognitive impairment (MCI), a prodromal stage of dementia. In this pilot study, we aimed to clarify the effect of inhaled phytoncides on the cognitive function of patients clinically diagnosed with MCI. Methods: In total, 21 patients with MCI were randomly assigned to either a saline (no-odor) or phytoncide group and subsequently inhaled saline or phytoncide for 30 minutes indoors, respectively. To evaluate changes in cognitive function, we implemented functional near-infrared spectroscopy along with the Stroop task and compared task performance and hemodynamic responses in the dorsolateral/ventrolateral part of the prefrontal cortex (DLPFC/VLPFC) before and after inhalation. Results: While the saline group showed no significant difference in either task performance (Wilcoxon W = 18.50, p = 0.385) or hemodynamic response, a significant increase in Stroop task performance (Wilcoxon W = 1.50, p = 0.009) and hemodynamic attenuation in the left VLPFC (Wilcoxon W = 56.00, p = 0.042) were found in the phytoncide group after inhalation. Conclusion Since compensatory task-related prefrontal hyperactivation represents one of the neural indicators of cognitive dysfunction in MCI, our findings shed light on the beneficial effects of phytoncide on cognitive function in MCI.

Objective: Several studies have reported the therapeutic effects of phytoncides on various mental disorders. However, little is known about the therapeutic effects of phytoncides on mild cognitive impairment (MCI), a prodromal stage of dementia. In this pilot study, we aimed to clarify the effect of inhaled phytoncides on the cognitive function of patients clinically diagnosed with MCI. Methods: In total, 21 patients with MCI were randomly assigned to either a saline (no-odor) or phytoncide group and subsequently inhaled saline or phytoncide for 30 minutes indoors, respectively. To evaluate changes in cognitive function, we implemented functional near-infrared spectroscopy along with the Stroop task and compared task performance and hemodynamic responses in the dorsolateral/ventrolateral part of the prefrontal cortex (DLPFC/VLPFC) before and after inhalation. Results: While the saline group showed no significant difference in either task performance (Wilcoxon W = 18.50, p = 0.385) or hemodynamic response, a significant increase in Stroop task performance (Wilcoxon W = 1.50, p = 0.009) and hemodynamic attenuation in the left VLPFC (Wilcoxon W = 56.00, p = 0.042) were found in the phytoncide group after inhalation. Conclusion Since compensatory task-related prefrontal hyperactivation represents one of the neural indicators of cognitive dysfunction in MCI, our findings shed light on the beneficial effects of phytoncide on cognitive function in MCI.

Objective: Several studies have reported the therapeutic effects of phytoncides on various mental disorders. However, little is known about the therapeutic effects of phytoncides on mild cognitive impairment (MCI), a prodromal stage of dementia. In this pilot study, we aimed to clarify the effect of inhaled phytoncides on the cognitive function of patients clinically diagnosed with MCI. Methods: In total, 21 patients with MCI were randomly assigned to either a saline (no-odor) or phytoncide group and subsequently inhaled saline or phytoncide for 30 minutes indoors, respectively. To evaluate changes in cognitive function, we implemented functional near-infrared spectroscopy along with the Stroop task and compared task performance and hemodynamic responses in the dorsolateral/ventrolateral part of the prefrontal cortex (DLPFC/VLPFC) before and after inhalation. Results: While the saline group showed no significant difference in either task performance (Wilcoxon W = 18.50, p = 0.385) or hemodynamic response, a significant increase in Stroop task performance (Wilcoxon W = 1.50, p = 0.009) and hemodynamic attenuation in the left VLPFC (Wilcoxon W = 56.00, p = 0.042) were found in the phytoncide group after inhalation. Conclusion Since compensatory task-related prefrontal hyperactivation represents one of the neural indicators of cognitive dysfunction in MCI, our findings shed light on the beneficial effects of phytoncide on cognitive function in MCI.

Objective: Several studies have reported the therapeutic effects of phytoncides on various mental disorders. However, little is known about the therapeutic effects of phytoncides on mild cognitive impairment (MCI), a prodromal stage of dementia. In this pilot study, we aimed to clarify the effect of inhaled phytoncides on the cognitive function of patients clinically diagnosed with MCI. Methods: In total, 21 patients with MCI were randomly assigned to either a saline (no-odor) or phytoncide group and subsequently inhaled saline or phytoncide for 30 minutes indoors, respectively. To evaluate changes in cognitive function, we implemented functional near-infrared spectroscopy along with the Stroop task and compared task performance and hemodynamic responses in the dorsolateral/ventrolateral part of the prefrontal cortex (DLPFC/VLPFC) before and after inhalation. Results: While the saline group showed no significant difference in either task performance (Wilcoxon W = 18.50, p = 0.385) or hemodynamic response, a significant increase in Stroop task performance (Wilcoxon W = 1.50, p = 0.009) and hemodynamic attenuation in the left VLPFC (Wilcoxon W = 56.00, p = 0.042) were found in the phytoncide group after inhalation. Conclusion Since compensatory task-related prefrontal hyperactivation represents one of the neural indicators of cognitive dysfunction in MCI, our findings shed light on the beneficial effects of phytoncide on cognitive function in MCI.

Skin aging results from complex interactions of intrinsic and extrinsic factors, leading to structural and biochemical changes such as wrinkles and dryness. Ultraviolet (UV) irradiation leads to the degradation of hyaluronic acid (HA) in the skin, and the fragmented HA contributes to inflammation. This study revealed that the synergistic combination of carnosine and retinol (ROL) increases HA production in normal human epidermal keratinocytes (NHEKs) by upregulating hyaluronan synthase 2 (HAS2) gene transcription. Simultaneously, the combined treatment of carnosine and ROL significantly attenuates UVB-induced prostaglandin E2 (PGE2) synthesis in NHEKs. A significant correlation exists between the increase of HA synthesis and the inhibition of PGE2 production. This study suggests that combined treatment of carnosine and ROL can improve skin aging phenotypes associated with UVB irradiation.

Sesquiterpene lactones, a class of natural compounds abundant in the Asteraceae family, have gained attention owing to their diverse biological activities, and particularly their anti-proliferative effects on human cancer cells. In this study, we systematically investigated the structure-activity relationship of ten sesquiterpene lactones with the aim of elucidating the structural determinants for the STAT3 inhibition governing their anti-proliferative effects. Our findings revealed a significant correlation between the STAT3 inhibitory activity and the anti-proliferative effects of sesquiterpene lactones in MDA-MB-231 breast cancer cell lines. Among the compounds tested, alantolactone and isoalantolactone emerged as the most potent STAT3 inhibitors, highlighting their potential as candidates for anticancer drug development. Through protein-ligand docking studies, we revealed the structural basis of STAT3 inhibition by sesquiterpene lactones, emphasizing the critical role of hydrogen-bonding interactions with key residues, including Arg609, Ser611, Glu612, and Ser613, in the SH2 domain of STAT3. Furthermore, our conformational analysis revealed the decisive role of the torsion angle within the geometry-optimized structures of sesquiterpene lactones in their STAT3 inhibitory activity (R=0.80, p<0.01). These findings not only provide preclinical evidence for sesquiterpene lactones as promising phytomedicines against diseases associated with abnormal STAT3 activation, but also highlight the importance of stereochemical aspects in their activity.

The natural flavonoid macakurzin C (1) exhibited adiponectin biosynthesis-inducing activity during adipogenesis in human bone marrow mesenchymal stem cells and its molecular mechanism was directly associated with a pan-peroxisome proliferator-activated receptor (PPAR) modulator affecting all three PPAR subtypes α, γ, and δ. In this study, increases in adiponectin biosynthesisinducing activity by macakurzin C derivatives (2–7) were studied. The most potent adiponectin biosynthesis-inducing compound 6, macakurzin C 3,5-dimethylether, was elucidated as a dual PPARα/γ modulator. Compound 6 may exhibit the most potent activity because of the antagonistic relationship between PPARδ and PPARγ. Docking studies revealed that the O-methylation of macakurzin C to generate compound 6 significantly disrupted PPARδ binding. Compound 6 has therapeutic potential in hypoadiponectinemia-related metabolic diseases.