[Damage and functional recovery of the mouse retina after exposure to ionizing radiation and methylnitrosourea].

The eye retina consists of terminally differentiated cells that have lost their ability to proliferate. The death of these cells leads tothe loss of sight. The mice retina is characterized by relatively high resistance to radiation, which is provided by its ability to repair damage caused by environmental factors.

[The estimation of age-related sensitivity of the retinal pigment epithelium of Japanese quail (Coturnix japonica) to the light damage].

The effect of blue light damage (445-455 nm, 4 J/cm2) to retinal pigment epithelium (RPE) subcellular structures was investigated in 4 age risk groups (9, 25, 40 and 52 weeks) of Japanese quail Coturnix japonica by light and electron microscopy. The indicator of biological aging of RPE was age-related accumulation of lipofuscin granules: 5-6-fold increase in their quantity increasing by 5-6 times in quails at 52 weeks. The main photo-induced changes observed after 24 h of the photo radiation were located in the blood-retinal barrier, such as loss of homogeneity of Bruch's membrane, disorganization of basal processes, deformations of the nuclei and mitochondria shapes.

[Deceleration of cataract development in rats under the action of N-acetylcarnosine and D-pantethine mixture].

The effect of a mixture of N-acetylcarnosine and D-pantethine (1 : 1, m/m) on UV-A induced cataract in rats was studied. It is shown that instillation of a 5% mixture into the eyes or intraperitoneal injections (25 or 150 mg/kg) inhibit the formation of cataracts, starting from 82nd day of the experiment (p < 0.03), after which the protective effect of the mixture significantly increases (p = 0.

[RPE melanosomes bind A2E fluorophore of lipofuscin granules and products of its photooxidation].

The ability of melanosomes from human, bovine and frog retinal pigment epithelium cells (RPE) to bind A2E fluorophore of RPE lipofuscin granules and products of A2E photooxidation is investigated. RPE melanosomes are found to bind A2E molecules themselves as well as the molecules formed after A2E irradiation by visible light. In our experiments single melanosome was able to bind up to 0.

[Experimental study of the influence of disturbing factors and chaperone-like drugs on cataractogenesis].

A comparative experimental study of biomicroscopic appearance of lenses in cataracts of different genesis (age-related, ultraviolet and other radiation-induced or combined) has been performed on animals (mice). It is shown that identical lens opacification can be provoked by aging (endogenous factor), as well as ultraviolet and other radiation exposure (exogenous physical factors). The only differential sign is the severity of the damage.