Comparison of cytotoxicity evaluation of chlorogenic acid extract between Real-time cell analysis and CCK-8 method

Critical cytotoxicity evaluation of pharmaceuticals is necessary for the clinical practice of chemotherapy. To quantitatively evaluate cell viability, currently there are two main types of sensitive methods including real-time cell analysis (RTCA) and CCK-8 assay, in which RTCA records electrochemical signal changes around an incubated cell, whereas CCK-8 is based on the colorimetric method. Despite the different detection principles adopted for the cytotoxicity assessment, the comparison of the two methods in terms of the application scope is lacking. In order to compare and determine the best experimental method for the study of the toxicity of chlorogenic acid extract from taraxacum officinale on dairy cow mammary epithelial cells. The real time cell analysis (RTCA) and CCK-8 method were used to analyze the cytotoxicity of chlorogenic acid extract to BMEC and calculate its IC50. The results of the real time cell analysis method and the CCK-8 method showed that different concentrations of chlorogenic acid extract reduced the viability of dairy cow mammary epithelial cells, and the decrease was most obvious at 400 ug/mL. The IC50 of the two analysis methods were 326.8 and 320.4 ug/mL, respectively. In contrast, the CCK-8 method had limitations in fixed-point determination. However, the real time cell analysis method can monitor the dynamic biological response process of cell growth and proliferation in real time. Therefore, the real time cell analysis method can observe cell growth more intuitively and accurately, compensate for the shortcomings of the CCK-8 method, and it is a new experimental method for studying cytotoxicity

Use of plant-derived drugs in the prevention and treatment of dairy cow mastitis

Dairy cow mastitis is one of most seriously diseases affecting dairy herds.  The prevention and treatment of this pathology is especially done through antimicrobials, but the increasing antimicrobial resistance of pathogens to this disease may affect the efficiency of conventional drugs. Plant extracts are increasingly being valued by livestock producers because of their wide sources, low toxic and side effects, and high environmental affinity. Thereby, a lot of research has been conducted on the control of dairy cow mastitis by plant-derived drugs in recent years. This review summarizes the current of the plant types, main active ingredients, and the mechanism of action of plant extracts for preventing and treating dairy cow mastitis. Finally, a review was carried out to prospect the future development of plant extracts in the treatment of dairy cow mastitis

The 84-bp Indel Polymorphism of The Sterol Regulatory Element-Binding Protein 1 (SREBP1) Gene in Several Cattle Breeds in Indonesia

Sterol regulatory element-binding protein 1 (SREBP1) gene is a gene that encodes SREBP1, a family of transcription factors that have a key role in lipid homeostasis as well as fatty acid metabolisms. The present study aimed to detect the 84-bp indel polymorphism in the intron 5 of the SREBP1 gene (84-bp indel) in several cattle breeds in Indonesia.  A total of 740 cattle of six breeds (Limousin, Simmental, Holstein-Friesian, Bali, Sumbawa, and Pasundan) from two National Artificial Insemination Centers (NAICs) and smallholder farmers were used in this study. The detection of 84-bp indel polymorphism was performed using the polymerase chain reaction (PCR) method and visualized through a gel agarose electrophoresis system. The study showed that the L allele (insertion-type) was common and is fixed in Holstein-Friesian, Bali, and Sumbawa cattle (1.00). Meanwhile, the S allele (deletion-type) was found in Limousin, Simmental, and Pasundan cattle with a frequency of 0.24, 0.16, and 0.01, respectively. The presence of the S allele in Pasundan cattle was only found in the form of the heterozygous LS genotype (0.03). In conclusion, the 84-bp indel of the SREBP1 gene was found to be polymorphic in Limousin, Simmental, and Pasundan cattle, but monomorphic in Holstein-Friesian, Bali, and Sumbawa cattle

Rapamycin Inhibits Expression of Elongation of Very-long-chain Fatty Acids 1 and Synthesis of Docosahexaenoic Acid in Bovine Mammary Epithelial Cells

Mammalian target of rapamycin complex 1 (mTORC1) is a central regulator of cell growth and metabolism and is sufficient to induce specific metabolic processes, including de novo lipid biosynthesis. Elongation of very-long-chain fatty acids 1 (ELOVL1) is a ubiquitously expressed gene and the product of which was thought to be associated with elongation of carbon (C) chain in fatty acids. In the present study, we examined the effects of rapamycin, a specific inhibitor of mTORC1, on ELOVL1 expression and docosahexaenoic acid (DHA, C22:6 n-3) synthesis in bovine mammary epithelial cells (BMECs). We found that rapamycin decreased the relative abundance of ELOVL1 mRNA, ELOVL1 expression and the level of DHA in a time-dependent manner. These data indicate that ELOVL1 expression and DHA synthesis are regulated by mTORC1 in BMECs

The role of breastfeeding in breast cancer prevention: a literature review

Breast cancer stands as the most prevalent malignancy globally. Despite the array of treatment options, its mortality rate continues to rise annually. Thus, reevaluation of factors directly linked to breast cancer emergence is imperative, alongside the development of more effective preventive measures. Estrogen levels, profoundly tied to reproduction, play a pivotal role in breast cancer development. Speculation centers on the potential of breastfeeding to mitigate cancer risk in women. However, the precise mechanism remains elusive. Breastfeeding is a modifiable reproductive factor extensively studied. Studies highlight a direct connection between lack of breastfeeding and breast cancer emergence, potentially linked to DNA methyltransferase expression alteration, aberrant methylation levels, pregnancy-associated plasma protein-A, cellular microenvironment, and oncogenes. This study reviews recent mechanisms underlying breastfeeding’s role in reducing breast cancer incidence

Effects of dietary vegetable oils on mammary lipid-related genes in holstein dairy cows

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