Human parthenogenetic stem cells are derived from the inner cell mass of blastocysts obtained from unfertilized oocytes that have been stimulated to develop without any participation of male gamete. As parthenogenesis does not involve the destruction of a viable human embryo, the derivation and use of human parthenogenetic stem cells does not raise the same ethical concerns as conventional embryonic stem cells. Human parthenogenetic stem cells are similar to embryonic stem cells in their proliferation and multilineage in vitro differentiation capacity. The aim of this study is to derive multipotent neural stem cells from human parthenogenetic stem cells that are stable to passaging and cryopreservation, and have the ability to further differentiate into functional neurons. Immunocytochemistry, quantitative real-time PCR, or FACS were used to confirm that the derived neural stem cells express neural markers such as NES, SOX2 and MS1. The derived neural stem cells keep uniform morphology for at least 30 passages and can be spontaneously differentiated into cells with neuron morphology that express TUBB3 and MAP2, and fire action potentials. These results suggest that parthenogenetic stem cells are a very promising and potentially unlimited source for the derivation of multipotent neural stem cells that can be used for therapeutic applications.
The main goal of our study was to determine a set of thawed stallion sperm characteristics that have predictive value for the pregnancy rate (PR) of mares after artificial insemination (AI). DNA fragmentation and survival of sperm during hypothermic storage were studied in addition to routinely determined semen characteristics such as concentration, percentage of motile spermatozoa, and morphology. To estimate DNA fragmentation, a modified hallo assay was applied. Sperm survival was determined within hours as the ability of spermatozoa to maintain progressive motility (PM) during the storage of ejaculate diluted with lactose-chelate-citrate-yolk (LCCY) medium at +4 °C. Strong positive correlation between PR and thawed sperm motility (r = 0.90, p < 0.05) as well as between PR and sperm survival (r = 084, p < 0.05) was revealed. There was also a strong negative correlation between PR and DNA damages in spermatozoa (r = −0.94, p < 0.05). We found no dependence of PR on normal morphology spermatozoa percentage in thawed semen. We concluded that the sperm activity, survival, and DNA fragmentation should be considered as the sufficient reproductive characteristics of semen to evaluate the quality of frozen/thawed sperm and prediction of PR.
We studied neural induction and generation of neuroectoderm in the colonies of human parthenogenetic SC cultured in the presence of 5 and 19±2% oxygen. We found that neuroectoderm was more actively generated at high oxygen content. At the same time, the transcription of stem cell pluripotency genes was not completely suppressed during neural induction at low oxygen content, while the expression of endoderm and mesodermal marker genes attested to the absence of specific differentiation. These findings demonstrate more efficient neuroectoderm generation induced in the colonies of pluripotent stem cells under conditions of normoxia.
One of the ways to strengthen the immunity of animals in aquaculture is the use of immunomodulators as a food supplement. This work presents a study on the effect of the probiotics Bacillus subtilis and Bacillus licheniformis on the immunity of crayfish and fish. It was found that the use of the probiotic “Subtilis-C” as a feed supplement strengthened the immunity of narrow-clawed crayfish: the survival rate increased almost threefold in the presence of Saprolegnia parasitica in the water and the incidence of burn-spot disease (BSD) decreased. The average cytochemical coefficient (ACC) of the lysosomal cationic protein in hemocytes decreased. It appears that crayfish consume this cytotoxic protein for immune protection. In carp fed with the probiotic, the immunity to saprolegniosis was strengthened, the body weight gain increased significantly, the amount of hemoglobin increased by 15%, and the number of erythorocytes in the blood almost doubled. An increase in metamyelocytes was noted in WBC differential count of these fish.
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