Folate supplementation during oocyte maturation positively impacts the folate-methionine metabolism in pre-implantation embryos.

Folic acid is vital for DNA synthesis and methylations through one-carbon (C1) metabolism. Thus, it is essential for cell division during embryonic development. Although the oocytes contain endogenous pool of folates for development, the present study investigated the effect of external folic acid supplementation on oocyte maturation, blastocyst development and the expression of folate transporters as well as folate metabolism enzymes in oocytes and pre-implantation embryos of goat. Immature goat oocytes, matured in maturation medium comprising different folic acid concentrations (0, 10, 50, 100 and 150 µM), were in vitro fertilized and cultured. Cumulus expansion markers (PTX3 and PTGS2) in cumulus cells were highly upregulated after 50 µM folic acid supplementation indicating higher degree of maturation. Supplementation of 50 µM folic acid during oocyte maturation resulted in significantly higher blastocyst production rate, reduction in intracellular ROS levels as well as upregulation of the transcripts for folate transporters and key folate-methionine cycle enzymes in comparison to control. The present study demonstrates the existence of active folate-methionine cycle in oocytes and pre-implantation goat embryos. Supplementation of 50 µM folic acid in maturation medium improves oocyte maturation, the blastocyst production rate, reduces ROS production as well as upregulate the expression of FOLR1 and folate metabolism enzyme, MTR.

Tri-Model Therapy: Combining Macrocyclic Lactone, Piperazine Derivative and Herbal Preparation in Treating Humpsore in Cattle.

Stephanofilariasis or humpsore is a chronic parasitic dermatitis of cattle. Various treatment regimens were attempted in the past but were found to be partially effective. Here, we claim a successful treatment regime using an FDA-approved macrocyclic lactone, a piperazine derivative, and an herbal preparation. Twenty-four cattle (18 affected and 6 unaffected) were selected and divided into Gr 1: positive control (infected without treatment; n = 6), Gr 2: treatment group (infected with treatment with ivermectin; n = 6), Gr 3: treatment group (infected with treatment with tri-model therapy including ivermectin, diethylcarbamazine citrate, and an herbal ointment, n = 6), and Gr 4: negative control (non-infected animals; n = 6). In Gr 2 and Gr 3, treatment to the ailing animals were given for 30 days. Lesion was significantly reduced in day 15 of post-treatment and completely healed on day 30 of post-treatment in Gr 3. Tri-model therapy recorded significant improvement in the surface area of the sore as compared to ivermectin administration alone. Antioxidants were increased and malondialdehyde (MDA) and cortisol concentrations were decreased significantly (p < 0.05) in Gr 3 than in untreated control group at day 14, 21 and 28. Histopathological changes in infected animals were characterized by parakeratotic hyperkeratosis along with presence of nucleated keratinocytes. There were infiltrations of polymorphonuclear cells specially eosinophils along with a few monomorphonuclear cells. Microfilarial organism was observed beneath the epidermis, which was surrounded by fibrocytes and infiltrated cells. In the tri-model-treated animal after recovery, the skin revived a normal architecture. Therefore, tri-model therapy has the potential to cure humpsore.