Influence of Dietary Capsaicin on Redox Status in Red Blood Cells During Human Aging

© 2015 The Authors. This is an Open Access article distributed under the terms of the Creative Commons Attribution (CC BY), which permits unrestricted use, distribution, and reproduction in any medium, as long as the original authors and source are cited. No permission is required from the authors or the publishers. Adv Pharm Bull, 2015, 5(4), 583-586 doi: 10.15171/apb.2015.078 http://apb.tbzmed.ac.ir Advanced Pharmaceutical Bulletin


Introduction
Capsaicin is a naturally occurring alkaloid derived from plants of the genus Capsicum, better known as chili pepper fruit.It belongs to vanilloid family of compounds. 1Capsaicin is absorbed by a non active process from the stomach and whole intestine.Maximum blood concentration is seen after 1 hour of administration. 2Capsaicin has been reported in the activation of erythrocyte membrane Na/K and calcium adenosine triphosphatases; 3 treatment of post herpetic neuralgia; 4 protection of lipid peroxidation, carbonyl formation 5 and induced apoptosis in transformed cells 6 but effect of capsaicin on redox regulation in red blood cells are not extensively investigated.Oxidative stress plays a crucial role in the development of the aging process and age dependent diseases. 7ging is the accumulation process of diverse detrimental changes in the cells and tissues with advancement of age which results, an increase in the risks of disease and death. 8Glutathione is a tripeptide and play a very important role during aging and age related diseases. 9The rate of GSH synthesis depends on the availability of L-cysteine, its influx and efflux plays a crucial role during aging. 10,11GSH is readily oxidized by free radicals and reactive oxygen and nitrogen species to glutathione disulfide (GSSG).GSSG efflux from cells contributes to a net loss of intracellular GSH. 12 Due to its high intracellular concentrations; GSH variations in oxidation states can significantly modify the redox environment of red blood cells.Within the erythrocyte, GSH may act as an antioxidant in scavenging reactive oxygen or nitrogen species, as a reductant to maintain protein thiols in a reduced state, or, conversely, as an adjunct in forming mixed disulfides with proteins. 9In recent study, we have shown the protective effect of dietary flavonoids during aging. 13This study was undertaken to evaluate the antioxidant potential of capsaicin and in vitro effect on erythrocyte GSH in view of its importance in the regulation of redox status.

Blood collection and isolation of erythrocytes
The study was carried out on total 65 healthy subjects of both sexes.They were divided into three groups (a) Young (n =25) -20 to 35 years of age, (b) Middle (n = 20) -36 to 60 years of age and (c) Old (n = 20) -more than 60 years of age.The criteria for selection of subjects were the same as described earlier. 10All persons gave their informed consent for the use of their blood samples for the study.The protocol of study was in conformity with the guidelines of the Institutional Ethical Committee.Human venous blood samples from different healthy volunteers were obtained by venipuncture in heparin.The blood was centrifuged at 1800 x g for 10 min at 4°C.After removal of plasma, buffy coat, the RBCs were washed twice with cold PBS.Washed packed red blood cells were used for GSH estimation and in vitro experiments with capsaicin.

Determination of total antioxidant potential of Capsaicin
The Ferric Reducing Ability of Plasma (FRAP) values were determined, following the method of Benzie & Strain. 14Briefly, 3 mL of FRAP reagent was mixed with 100 µL of capsaicin of different concentration (10 -6 to 10 -3 M); the contents were mixed vigorously for making uniform solution.The absorbance was read at 593 nm at the interval of 30 seconds for 4 minutes.

Determination of erythrocyte GSH
Erythrocyte GSH was measured following the method of Beutler. 15The methods were based on the ability of the sulfhydryl group to reduce 5, 5'-dithiobis-2-nitrobenzoic acid (DTNB) and form a yellow colored anionic product whose optical density was measured at 412 nm.Concentration of GSH was expressed in mg per mL packed red blood cells and was determined from standard plot.

In vitro experiment with capsaicin
The effect of capsaicin on erythrocyte GSH was studied, following the procedure used in earlier studies. 5The in vitro effect of capsaicin was evaluated by incubating the assay medium in the presence of 10 -5 M (final concentration) of it for 60 min at 37°C.The concentration of capsaicin is in accordance with the results of the previous studies. 5

Statistical Analysis
All data analysis was performed on GraphPad Prism version 5.00 for Windows, GraphPad Software (San Diego CA).Results are expressed as mean ± SD.The paired t test and Pearson correlation coefficient were used to identify significant relationship between variables.P value less than or equal to 0.05 was considered statistically significant.

Results and Discussion
Figure 1 shows total antioxidant potential of capsaicin at different concentration range (10 -6 M to 10 -3 M) in terms of FRAP values.Age-dependent decline in intracellular reduced glutathione (GSH) concentration is shown in Figure 2. Figure 3 represents in vitro effect of capsaicin (final concentration 10 -5 M) on GSH level in young, middle and old age groups.Results shows a significant (p = 0.0096; 0.0017; 0.0187) increased GSH level in young, middle and old age groups respectively.Capsaicin, a highly potent active ingredient of hot chili pepper, has been extensively studied in vivo and in vitro.The neuronal effects of capsaicin are detectable at nanomolar concentrations; while non-neuronal effects require micromolar concentrations. 16Our findings indicate concentration dependent increase in total antioxidant potential.Increased level of GSH due to capsaicin may be explained on its incorporation into the cell membrane which results in altered membrane | 585

Capsaicin and Aging
Advanced Pharmaceutical Bulletin, 2015, 5(4), 583-586 fluidity.Altered cell membrane permiability induces several other metabolic pathways that result in increased biosynthesis of GSH.Ratio of GSH / GSSG reflects the redox status of the cell, increased GSH level will results, shift in GSH/GSSG ratio, thus modulating the redox status.Our recent findings on shift in GSH/GSSG ratio during human aging also support the above mentioned findings. 10Capsaicin has been shown to incorporate itself into phospholipids membrane and align with phospholipid acyl chain, perturbing the packing of lipid and affecting thermotropic properties. 17The capsaicin induced increase in the activity of the erythrocyte membrane enzymes: Na + /K + -ATPase and Ca 2+-ATPase have been reported. 3The exact mechanism underlying the anti-aging effects of capsaicin is unclear.The erythrocyte redox environment contributes to the increased oxidative stress during aging.GSH is the most abundant low-molecular weight thiol and the principal thiol redox buffer in erythrocytes. 12The red blood cell contributes up to 10% of whole-body GSH synthesis in humans.GSH has many biological functions, including maintenance of membrane protein -SH groups in the reduced form, the oxidation of which can otherwise cause altered cellular structure and function.The GSH/GSSG redox, function in redox signaling and control as well as antioxidant protection, the thiol/disulfide redox states may provide central parameters to link environmental influences and progression of changes associated with aging.

Conclusion
Our findings on the influence of capsaicin on human erythrocyte GSH signify the importance of capsaicin in redox regulation during aging.There is need for evaluating the physiological impact of high capsaicin (capsicum) consumption in some regions of the world.The results presented here could also be useful for the understanding of the non-specific effects of capsaicin during human aging.Further research is needed to understand the mechanism(s) of the action of capsaicin in its nonselective effects on non-neuronal cells in aging and age related diseases.

Figure 1 .
Figure 1.Total antioxidant potential of capsaicin (10 -6 M to 10 -3 M) in terms of Ferric reducing ability of the plasma (FRAP values).FRAP values expressed as µmol Fe (II) per liter of capsaicin.

Figure 2 .
Figure 2. Erythrocytes reduced glutathione in different age groups.GSH level in young were statistically significant (p = 0.0053; r = 0.2924) with middle.A significant correlation (r = 0.5635) was observed between young and old.A significant correlation (r = 0.2924) was observed between middle and old age groups.Concentration of GSH is expressed in mg per mL packed erythrocytes.