Human umbilical cord mesenchymal stem cells mitigate A1 astrocyte neuroinflammation induced by 1,2-dichloroethane via ERBB pathway inhibition.

1,2-Dichloroethane (1,2-DCE), a prevalent industrial and environmental contaminant, induces toxic encephalopathy through inhalation, leading to neurotoxic effects and inflammation-driven brain edema. Human umbilical cord mesenchymal stem cells (HUCMSCs) secrete bioactive factors, including miRNAs, proteins, and lipids via exosomes, exhibiting anti-inflammatory and immune-regulatory properties. However, their potential in treating 1,2-DCE-induced neuroinflammation and the underlying mechanisms remain unclear.

Fragile Guts Make Fragile Brains: Intestinal Epithelial Deficiency Exacerbates Neurotoxicity Induced by Polystyrene Nanoplastics.

Oral ingestion is the primary route for human exposure to nanoplastics, making the gastrointestinal tract one of the first and most impacted organs. Given the presence of the gut-brain axis, a crucial concern arises regarding the potential impact of intestinal damage on the neurotoxic effects of nanoplastics (NPs). The intricate mechanisms underlying NP-induced neurotoxicity through the microbiome-gut-brain axis necessitate further investigation.

Effects of Substrate Composition on the Growth Traits of Grafted Seedling in Macadamia () Nuts.

Macadamia nut plantings in China are expanding year by year. In order to breed and promote superior varieties, this study analyzed the effects of different rootstocks and scions on the survival rate of grafted seedlings, and then selected the best substrate composition for plant growth. The results showed that the survival rate of the HAES788 variety as rootstock and Guire No.

Gastrointestinal Incomplete Degradation Exacerbates Neurotoxic Effects of PLA Microplastics via Oligomer Nanoplastics Formation.

Biodegradable plastics, hailed for their environmental friendliness, may pose unforeseen risks as they undergo gastrointestinal degradation, forming oligomer nanoplastics. Despite this, the influence of gastrointestinal degradation on the potential human toxicity of biodegradable plastics remains poorly understood. To this end, the impact of the murine in vivo digestive system is investigated on the biotransformation, biodistribution, and toxicity of PLA polymer and PLA oligomer MPs.

Relationship between Changes in Intestinal Microorganisms and Effect of High Temperature on the Growth and Development of Larvae.

Temperature is an important environmental factor affecting the growth and development of silkworm (). To analyze the effect of intestinal microbes on silkworm in response to a high-temperature environment, this study used a combination of high throughput sequencing and biochemical assays to detect silkworm intestinal microbes treated with high temperature for 72 h. The results show that high temperature affects the intestinal microbes of silkworm and that there are sex differences, specifically, females were more sensitive.