Catechins green tea upregulates the expression of ABCA1, ABCG1, and SRB1 in rats induced atherogenic diet

The efflux of cholesterol from macrophage to liver is known as reverse cholesterol transport (RCT). Impairedcholesterol efflux leads to cholesterol accumulation in macrophages. Therefore, how to increasing cholesterol effluxmay be an effective strategy for atherosclerosis prevention. Key molecules that play a vital role in the efflux ofcholesterol from macrophage are Adenosin Tri Phosphate (ATP)-binding casette transporters A1 and G. This study wasundertaken to clarify the effect of Catechins on the expression of specific transporters such as ATP-binding cassettesub-family A member 1 (ABCA1), ATP-binding cassette sub-family G member 1 (ABCG1) from macrophage to liver,and scavenger receptor class B type I (SRB1). This research was done on Wistar rats induced atherogenic diets. SRB1is one of the transporters to facilitate the delivery of cholesterol from the macrophage to the liver. The SRB1 pathwaymediated the selective uptake of cholesteryl ester. Catechins significantly increased the mRNA expression of ABCA1and ABCG1 in aorta as well as SRB1 of liver also increased. Thus, Catechins decreased the total cholesterol levels inaorta and serum. Catechins can be developed as a potential agent to increase ABCA1 to inhibit atherogenesis process.In conclusion, this study indicates that the potential anti-atherogenic properties of Catechins could be explained, atleast in part, as being due to upregulated expression of ABCA1, ABCG1, and SRB1 through activation liver X receptorsignaling pathway

Catechins green tea upregulates the expression of ABCA1, ABCG1, and SRB1 in rats induced atherogenic diet

The efflux of cholesterol from macrophage to liver is known as reverse cholesterol transport (RCT). Impairedcholesterol efflux leads to cholesterol accumulation in macrophages. Therefore, how to increasing cholesterol effluxmay be an effective strategy for atherosclerosis prevention. Key molecules that play a vital role in the efflux ofcholesterol from macrophage are Adenosin Tri Phosphate (ATP)-binding casette transporters A1 and G. This study wasundertaken to clarify the effect of Catechins on the expression of specific transporters such as ATP-binding cassettesub-family A member 1 (ABCA1), ATP-binding cassette sub-family G member 1 (ABCG1) from macrophage to liver,and scavenger receptor class B type I (SRB1). This research was done on Wistar rats induced atherogenic diets. SRB1is one of the transporters to facilitate the delivery of cholesterol from the macrophage to the liver. The SRB1 pathwaymediated the selective uptake of cholesteryl ester. Catechins significantly increased the mRNA expression of ABCA1and ABCG1 in aorta as well as SRB1 of liver also increased. Thus, Catechins decreased the total cholesterol levels inaorta and serum. Catechins can be developed as a potential agent to increase ABCA1 to inhibit atherogenesis process.In conclusion, this study indicates that the potential anti-atherogenic properties of Catechins could be explained, atleast in part, as being due to upregulated expression of ABCA1, ABCG1, and SRB1 through activation liver X receptorsignaling pathway.

Qualitative analysis of catechins from green tea GMB-4 clone using HPLC and LC-MS/MS

Objective: To identify the bioactive compounds in catechins isolation and its components from green tea GMB-4 clone. Methods: Green tea GMB-4 clones were extracted with distilled water at 90 °C. Samples were eluted into the column with 10% ethanol. Subsequently, the column was eluted with 95% ethanol and evaporated separately. Green tea extract was identified by thin layer chromatography. Catechins were separated by the stationary phase in column chromatography using polyamide with 10% ethanol eluent and 95% ethanol. The results of isolations were analyzed by high performance liquid chromatographic (HPLC) and LC-MS/MS. Analysis of catechins by HPLC was done by external standard. Results: Fraction from 10% ethanol showed that four major peaks at retention time of 1.663, 2.367, 2.950 and 4.890, indicated the presence of four catechins components including catechin, epicatechins, gallocatechin and epigallocatechin. Whereas, fraction from 95% ethanol showed two main peaks at retention time of 5.167 and 9.82, which indicated the presence of epigallocatechin gallate (EGCG) and epicatechin gallate (ECG). EGCG (m/z 459), epigallocatechin (m/z 307), ECG (m/z 443), and epicatechin (m/z 291) were isolated and separated successfully using HPLC and LC-MS/MS. Conclusions: The HPLC and LC-MS/MS methods were successfully tuned for the qualitative analysis of green tea extract with EGCG and ECG. Four major catechins were separated and identified by LC-MS/MS, such as EGCG, epigallocatechin, ECG and epicatechin. The result of HPLC analysis showed that EGCG and ECG were main components from catechins isolation of green tea GMB-4 clone.

Proteomic analysis of immunogenic proteins from salivary glands of Aedes aegypti

Humans develop anti-salivary proteins after arthropod bites or exposure to insect salivary proteins. This reaction indicates that vector bites have a positive effect on the host immune response, which can be used as epidemiological markers of exposure to the vector. Our previous study identified two immunogenic proteins with molecular weights of 31 kDa and 56 kDa from salivary gland extract [SGE] of Aedes aegypti that cross-reacted with serum samples from Dengue Hemorrhagic Fever [DHF] patients and healthy people in an endemic area [Indonesia]. Serum samples from individuals living in non-endemic area [sub-tropical country] and infants did not show the immunogenic reactions. The objective of this research was to identify two immunogenic proteins, i.e., 31 and 56 kDa by using proteomic analysis. In this study, proteomic analysis resulted in identification of 13 proteins and 7 proteins from the 31 kDa- and 56 kDa-immunogenic protein bands, respectively. Among those proteins, the D7 protein [Arthropode Odorant-Binding Protein, AOBP] was the most abundant in 31-kDa band, and apyrase was the major protein of the 56-kDa band

Detection of GAD65 autoantibodies of type-1 diabetes using anti-GAD65-abs reagent produced from bovine brain tissue.

Clinically, type 1 diabetes may presents as type 2 diabetes which sometimes not easily differentiated. Perhaps only autoimmune markers of β-cells destruction could differentiate those two clinical conditions. Due to extremely high cost ( $ 150/test), examination of anti-glutamic acid decarboxylase-65 auto-antibodies (anti-GAD65Abs) may not be routinely performed in most, if not all, clinical laboratories in Indonesia. Hence, the production of anti-GAD65 Abs reagent in Indonesia may reduce the cost and improve the quality of diabetes care in Indonesia. We produce reagent to detect anti-GAD65-Abs using bovine brain tissue as source of GAD enzyme in 3 steps. Step 1, isolation, purification of GAD65 from bovine brain tissue and used it as a primary antigen to stimulate the generation of anti-GAD65 antibodies in Wistar rat. Step 2, the purified GAD65 antibodies were than used as a secondary antibody to induce the production of anti-anti-GAD65-antibodies in Wistar rat and rabbit. Step 3. Labeling anti-anti GAD65-antibodies with alkaline phoshpatase and peroxidase, and detecting anti-GAD65Abs previously detected using commercial kit. The anti-anti-GAD65- antibodies reagent produced in our laboratories successfully identify anti-GAD65-Abs of type 1 diabetic patients previously detected with commercial reagent.