Gut Microbiome as a Target for Anti-ageing Interventions.

Trillions of various microorganisms inhabit the human intestine whilst having myriads of effects on the body. They participate in the metabolism of nutrients, support the work of the immune system, regulate operation of the nervous system, and produce vitamins, short-chain fatty acids, and a number of other compounds necessary for the host. An imbalance or disruption in the normal microbial community is called dysbacteriosis or dysbiosis.

The Effects of Bioactive Compounds on PTSD Treatment.

Post-traumatic Stress Disorder (PTSD) is a psychiatric disease that arises in individuals who have experienced a traumatic event such as combat exposure, childhood physical abuse, sexual violence, physical assault, an accident, etc. Being difficult to diagnose and treat, PTSD is actively studied in areas of medicine, psychiatry, biochemistry, and rehabilitation. PTSD is characterized by significant comorbidity and is accompanied by depression and anxiety.

Intestinal barrier permeability: the influence of gut microbiota, nutrition, and exercise.

The intestinal wall is a selectively permeable barrier between the content of the intestinal lumen and the internal environment of the body. Disturbances of intestinal wall permeability can potentially lead to unwanted activation of the enteric immune system due to excessive contact with gut microbiota and its components, and the development of endotoxemia, when the level of bacterial lipopolysaccharides increases in the blood, causing chronic low-intensity inflammation. In this review, the following aspects are covered: the structure of the intestinal wall barrier; the influence of the gut microbiota on the permeability of the intestinal wall via the regulation of functioning of tight junction proteins, synthesis/degradation of mucus and antioxidant effects; the molecular mechanisms of activation of the pro-inflammatory response caused by bacterial invasion through the TLR4-induced TIRAP/MyD88 and TRAM/TRIF signaling cascades; the influence of nutrition on intestinal permeability, and the influence of exercise with an emphasis on exercise-induced heat stress and hypoxia.

Potential Biosafety of Mxenes: Stability, Biodegradability, Toxicity and Biocompatibility.

MXenes are two-dimensional nanomaterials with unique properties that are widely used in various fields of research, mostly in the field of energy. Fewer publications are devoted to MXene application in biomedicine and the question is: are MXenes safe for use in biological systems? The sharp edges of MXenes provide the structure of "nanoknives" which cause damage in direct physical contact with cells. This is effectively used for antibacterial research.