Научная статья на тему 'ANTHOCYANINS FROM IPOMOEA BATATAS L. EFFECT ON OVARIAN MALONDIALDEHYDE AND 17β-ESTRADIOL IN RATS EXPOSED CIGARETTE SMOKE'

ANTHOCYANINS FROM IPOMOEA BATATAS L. EFFECT ON OVARIAN MALONDIALDEHYDE AND 17β-ESTRADIOL IN RATS EXPOSED CIGARETTE SMOKE Текст научной статьи по специальности «Фундаментальная медицина»

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17β-ESTRADIOL / IPOMOEA BATATAS L / OVARIAN MALONDIALDEHYDE

Аннотация научной статьи по фундаментальной медицине, автор научной работы — Aningsih Baharika Suci Dwi, Sujuti Hidayat, Mustofa Edy, Ratnawati Retty

Background - Cigarette smoking negatively impacts the health of both active smokers and passive smokers. ROS (Reactive Oxygen Species) from cigarette smoke can cause damage to the ovary and inhibit ovarian follicle growth. Objectives - This study aimed to assess the effects of the anthocyanins from the sweet potato (Ipomoea batatas L.) purple cultivar on ovarian malondialdehyde (MDA) and 17β-estradiol levels in rats (Rattus norvegicus) exposed to cigarette smoke. Material and Methods - The Rattus norvegicus Wistar strain was used in this study. Thirty rats were divided into five groups. Cigarette smoke was given as two cigarettes/day for four minutes, in the morning and afternoon for eight weeks after rats were at the proestrus stage. MDA levelwere measured with the BIOXYTECH MDA-586TM spectrophotometric assay for malondialdehyde, whilst 17β-estradiol was measured by ELISA. Data were then analyzed using one-way ANOVA. Results - MDA level were significantly different between the negative control and positive control groups based on double comparison with the LSD test (p=0.000 <∝). The level of 17β-estradiol also showed asignificant difference between the negative and positive control groups. There was a significant correlation between MDA level and 17β-estradiol levels (p=0.000 <∝) in the group of rats exposed to cigarette smoke and treated with anthocyanins from sweet potato at doses of 40 mg and 80 mg. Conclusions - Anthocyanins from the sweet potato (Ipomoea batatas L.) purple cultivar given at various doses decreased ovarian MDA level and increased 17β-estradiol levels in female rats exposed to cigarette smoke.

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Текст научной работы на тему «ANTHOCYANINS FROM IPOMOEA BATATAS L. EFFECT ON OVARIAN MALONDIALDEHYDE AND 17β-ESTRADIOL IN RATS EXPOSED CIGARETTE SMOKE»

2020. Volume 9. Issue 3 (September). Article CID e0308 DOI: 10.15275/rusomj.2020.0308_

Clinical Nutrition

Original article

Anthocyanins from Ipomoea batatas L. effect on ovarian malondialdehyde and 170-estradiol in rats

exposed cigarette smoke

Baharika Suci Dwi Aningsih 12, Hidayat Sujuti 1, Edy Mustofa 1, Retty Ratnawati 1

1 Brawijaya University, Malang, Indonesia 2 STIK Sint Carolus, Jakarta, Indonesia

Received8 January 2020, Revised 16 April 2020, Accepted 24 August 2020

© 2020, Aningsih B.S.D., Sujuti H., Mustofa E., Ratnawati R. © 2020, Russian Open Medical Journal

Abstract: Background — Cigarette smoking negatively impacts the health of both active smokers and passive smokers. ROS (Reactive Oxygen Species) from cigarette smoke can cause damage to the ovary and inhibit ovarian follicle growth.

Objectives — This study aimed to assess the effects of the anthocyanins from the sweet potato (Ipomoea batatas L.) purple cultivar on ovarian malondialdehyde (MDA) and 17P-estradiol levels in rats (Rattus norvegicus) exposed to cigarette smoke.

Material and Methods — The Rattus norvegicus Wistar strain was used in this study. Thirty rats were divided into five groups. Cigarette smoke was given as two cigarettes/day for four minutes, in the morning and afternoon for eight weeks after rats were at the proestrus stage. MDA levelwere measured with the BIOXYTECH MDA-586™ spectrophotometric assay for malondialdehyde, whilst 17P-estradiol was measured by ELISA. Data were then analyzed using one-way ANOVA.

Results — MDA level were significantly different between the negative control and positive control groups based on double comparison with the LSD test (p=0.000 <k). The level of 17P-estradiol also showed asignificant difference between the negative and positive control groups. There was a significant correlation between MDA level and 17P-estradiol levels (p=0.000 <<x) in the group of rats exposed to cigarette smoke and treated with anthocyanins from sweet potato at doses of 40 mg and 80 mg.

Conclusions — Anthocyanins from the sweet potato (Ipomoea batatas L.) purple cultivar given at various doses decreased ovarian MDA level and increased 17P-estradiol levels in female rats exposed to cigarette smoke.

Keywords: 17P-estradiol, Ipomoea batatas L., ovarian malondialdehyde.

Cite as Aningsih BSD, Sujuti H, Mustofa E, Ratnawati R. Anthocyanins from Ipomoea batatas L. effect on ovarian malondialdehyde and 17p-estradiol in rats exposed cigarette smoke. Russian Open Medical Journal 2020; 9: e0308.

Correspondence to Baharika Suci Dwi Aningsih. Address: Faculty of Medicine, Brawijaya University, Malang 65145, East Java, Indonesia. Phone: +62341551611. Fax: +62341564755. E-mail: [email protected].

Introduction

Cigarette smoking negatively impacts the health of both active smokers and passive smokers [1]. Approximately 40% of children, 33% of non-smoking men, and 35 of non-smoking women are exposed to cigarette smoke at home. Cigarette smoke is suggested to cause about 379,000 deaths per year due to ischemic cardiovascular disease, 165,000 due to infection of the lower respiratory tract, 36,900 due to asthma, and 21,400 due to lung cancer [2]. According to the World Health Organization (WHO) in 2009, more than one third of the over all population was affected by cigarette smoke. About 600,000 deaths occur per year inpassive smokers [3].

Indonesia ranks as the third highest cigarette consuming country world wide after China and India, with a smoking population of 65.2 million (28% of all Indonesians), including 4.8 million female smokers [3]. The prevalence of passive smokers among women of reproductive age (15-49 years old) is 65-69% [4]. Four thousand toxic compounds are found in cigarette smoke. In the tar phase, cigarette smoke has >1017 free radicals/g and >1015 free radicals/cigarette [5].

Reactive oxygen species (ROS) derived from cigarette smoke have the ability to decrease endogenous antioxidants such as superoxide dismutase (SOD) and glutathione (GSH), which normally protect against oxidative stress [6]. Increased ROS results in decreased antioxidant levels, leading to cell membrane damage via lipid peroxidation [7]. A study performed by Yuningtyaswari [8] on rats exposed to cigarette smoke showed increased plasma malondialdehyde (MDA) level. Cigarette smoke also inhibits ovarian follicle growth [9], increases apoptosis [10], and causes damage to the ovary [11]. Disturbances in follicle growth due to cigarette smoke exposure will also cause disturbances in estrogen production [12].

Antioxidants are important mediators that rescue cells from free radical-mediated damage [13]. According to Husna [14], anthocyanins have excellent antioxidant properties. Zhao et al. [15] also reported that the antioxidants in anthocyanin-containing extracts of the sweet potato purple cultivar were more effective than vitamin C. Indeed, it has been found in another study that anthocyanins from the sweet potato purple cultivar increase antioxidant enzyme expression.

2020. Volume 9. Issue 3 (September). Article CID e0308 DOI: 10.15275/rusomj.2020.0308_

Clinical Nutrition

Most ongoing research into the effects of anthocyanins on the reproductive tract only focuson the male genital tract; i.e. anthocyanins from black soybean have been found to increase testicular weight, sperm motility, and spermatogenesis, as well as decrease oxidative stress [16]. Treatment with a sweet potato purple cultivar syrup containing anthocyanins at a dose of 0.1 mg/day to mice (20 g) was found to decrease the MDA level [17]. Based on these findings, this study aimed to assess the effects of anthocyanins from the sweet potato (Ipomoea batatas L.) purple cultivar on ovarian MDA and 17P-estradiol levels in rats (Rattus norvegicus) exposed to cigarette smoke.

Material and Methods

Experimental design

The present investigation is an experimental study with a posttest only control group design, performed between January-August 2017. In this study, white rats were used Rattus norvegicus Wistar strain, 30 rats were divided into five groups (6 rats for each group). The rats used were female, healthy, and weighed 100-150 grams. The treatment was divided into 5 groups:

1. Negative control: rats were not exposed to cigarette smoke and were not given anthocyanin of sweet potato (Ipomoea batatas L.) purple cultivar.

2. Positive control (as.rkk): rats were exposed to 2 cigarettes/day for 8 weeks and were not given anthocyanin of sweet potato (Ipomoea batatas L.) purple cultivar.

3. P1 (as.rkk+anto 20 mg/kg BW): rats were exposed to 2 cigarettes/day for 8 weeks and were given anthocyanin of sweet potato (Ipomoea batatas L.) purple cultivar at a dose of 20 mg/kg BW per day.

4. P2 (as.rkk+anto 40 mg/kg BW): rats were exposed to 2 cigarettes/day for 8 weeks and were given anthocyanin of sweet potato (Ipomoea batatas L.) purple cultivar at a dose of 40 mg/kg BW per day.

5. P3 (as.rkk+anto 80 mg/kg BW): rats were exposed to 2 cigarettes/day for 8 weeks and were given anthocyanin of sweet potato (Ipomoea batatas L.) purple cultivar at a dose of 80 mg/kg BW per day.

The present study has the approval from the ethics committee of our institution.

Anthocyanin extraction from Ipomoea batatas L.

The anthocyanins present in the sweet potato purple cultivar from Gunung Kawi have been previously characterized by Dr. Ciptati MS, M. Scat the Chemistry Laboratory, Faculty of Mathematics and Science, Institut Teknologi Bandung. Extraction was conducted with the maceration technique by soaking samples in 0.01% ethanol-HCl for 14 hours at room temperature. Anthocyanins were separated from the extract by modified column chromatography with a solid phase of polyamide CC-6 and amobile phase of water and ethanol.

Administration of cigarette smoke

Cigarette smoke was given as two cigarettes/day for four minutes each, one in the morning and one in the afternoon for 8 weeks after rats were in the proestrus phase.

Administration of the sweet potato purple cultivar

The dose of anthocyanins in the sweet potato purple cultivar was based on a previous study and was found to be 80 mg/kg BW. This dose has a significant impact on testicular weight, sperm motility, and spermatogenesis cell density, and moreover decreased 8-OHdG levels as a marker of oxidative stress induced by varicocele in male rats. In this study, concentrations of 20 mg/kg BW, 40 mg/kg BW, and 80 mg/kg BW were assessed. Anthocyanins were given orally diluted in 1 ml of water [16].

Vaginal smears

Vaginal smears were performed to detect the proestrus phase in rats. Vaginal smears were also carried out on the last day of the study to confirm the stage of the estrus cycle. Cytologic samples were collected from 09:00-11:00 local time (GMT +7).

Measurement of MDA and 176-estradiol level

Animals were culled after 8 weeks of treatment. MDA level were measured using the BIOXYTECH MDA-586™ spectrophotometry assay for malondialdehyde. 17P-estradiol levels were monitored in rat heart during the estrus phase, measured by ELISA (rat-17P-estradiol ELISA kit (BT-Laboratory E1393Ra). Absorbance was measured at a wavelength of 450 nm.

Statistical analysis

Data were analyzed using SPSS 22 for Windows. This study used comparative and associative analysis. The comparative analysis was performed using one-way ANOVA [18].

Results

Based on the results of the Shapiro-Wilk test, found that the data MDA and 17P-Estradiol levels for each group of observations have demonstrated p-value of which was greater than the significance level of =0:05. All the data has met the prerequisites of parametric test, which proved the data are normally distributed (Table 1).

Measurement of MDA level

Based on the results of multiple comparison test with Least Significant Difference (LSD) test shows that there were significant differences (p<0.001) mean of MDA level between the negative control group with the positive control group. Based on the mean value of MDA level, reveales that cigarette smoke-exposed rats have higher MDA level than with healthy rats.

Table 1. Normality test for ovarian MDA and ovarian 17P-Estradiol levels

p-value

Treatment groups MDA 17p-Estradiol Distribution

levels levels

Negative control 0.739 0.123 Normal

Positive control (as.rkk) 0.861 0.147 Normal

P1 (as.rkk+anto 20 mg/kg BW) 0.073 0.708 Normal

P2 (as.rkk+anto 40 mg/kg BW) 0.253 0.315 Normal

P3 (as.rkk+anto 80 mg/kg BW) 0.233 0.217 Normal

p<0.05, the data were not normally distributed; p>0.05, the data are normally distributed.

2020. Volume 9. Issue 3 (September). Article CID e0308 DOI: 10.15275/rusomj.2020.0308_

Clinical Nutrition

Table 2. Effect of anthocyanins from the sweet potato purple cultivar on MDA level (^M)_

Treatment groups n Mean ± SD p-value

Negative control 6 0.34±0.07c

Positive control (as.rkk) 6 0.77±0.09a

P1 (as.rkk+anto 20 mg/kg BW) 6 0.72±0.09a <0.001

P2 (as.rkk+anto 40 mg/kg BW) 6 0.53±0.06b

P3 (as.rkk+anto 80 mg/kg BW) 6 0.41±0.06c

Results of the LSD test are shown in the mean ± standard deviation (SD) column;different letters represent significant differences (p<0.05) and same letters represent no significant differences (p>0.05).

Table 3. Effect of anthocyanin from the sweet potato purple cultivar on 17ft-estradiol levels (ng/l)_

Treatment groups n Mean ± SD p-value

Negative control 6 68.21±5.90d

Positive control (as.rkk) 6 29.86±2.10a

P1 (as.rkk+anto 20 mg/kg BW) 6 31.99±2.13a <0.001

P2 (as.rkk+anto 40 mg/kg BW) 6 40.98±1.89b

P3 (as.rkk+anto 80 mg/kg BW) 6 58.79±6.69c

Results of the LSD test are shown in the mean ± standard deviation (SD) column;different letters represent significant differences (p<0.05) and same letters represent no significant differences (p>0.05).

Based on the Table 2, it means that the treatment of 40 mg and 80 mg antocyanin of sweet potato (I. batatas L.) were significantly influential to the decreased MDA level in cigarette smoke-exposed rats. So the research hypothesis which stated that anthocyanin sweet potato (I. batatas L.) purple varieties can reduce MDA level was proven.

Measurement of 176-estradiol levels

Based on test results of multiple comparisons with LSD test shows a significant difference (p=0.000<a) average 17P-estradiol levels between the negative control group with the positive control group. Based on the value of the mean 17P-Estradiol level, revealed that cigarette smoke-exposed rats show the lower17P-estradiol level than healthy rats.

Based on the Table 3, it means that the treatment of various antocyanin dosages of sweet potato (I. batatas L.) could significantly affected the elevated levels of 17P-estradiol in rats exposed by cigarette smoke. Therefore, the second research hypothesis has been proved, which is stated that providing sweet potato anthocyanins can increase 17P-estradiol level in rats exposed by cigarette smoke.

Discussion

The results of the present study showed decreased ovarian MDA level in rats exposed to two cigarettes per day. This is supported by a previous study by Yuningtyaswari [8] that reported increased lipid peroxidation, indicated by MDA, in the plasma of rats exposed to cigarette smoke. MDA is the end product of lipid peroxidation from unsaturated fatty acids in the phospholipids of the cell membrane. MDA is a potential contributor to cell damage and DNA mutation generated from lipid peroxidation, which occurs gradually [19].

Treatment with anthocyanins from sweet potato at a dose of 20 mg decreased the MDA level, although the effect was not significant. According to Jawi et al. [17], treatment with sweet potato 0.1 mg/day in mice (20 g) decreased MDA level in rats.

Anthocyanins in sweet potato increased the total antioxidant capacity (T-AOC) and antioxidant enzyme levels (SOD and GSH-PX), and decreased MDA level. Increased antioxidant enzyme levels neutralize free radicals induced by oxidative stress [15].

Treatment at 40 mg and 80 mg decreased MDA level in rats exposed to cigarette smoke, with a significant difference between treatments. Anthocyanins are water-soluble pigments naturally found in plants [20]. These polyphenolic compounds derived from flavonoids are known to be antioxidants and can be utilized to scavenge free radicals [21]. The anthocyanins include pelargonidin, peonidin, cyanidin, malvidin, petunidin, and delphinidin. Cyanidin and peonidin, found in the sweet potato purple cultivar, have been reported to possess antioxidant properties [22]. Another study has also confirmed the antioxidant activities of anthocyanins from the sweet potato purple cultivar. A study done by Zhao et al. [15] showed that the antioxidant activity of the anthocyanin extract from the sweet potato purple cultivaris higher than that of vitamin C.

In the present study, MDA level decreased with an increased dose of sweet potato anthocyanins, this is in accordance with a previous study showing that a higher concentration of anthocyanins provides greater antioxidant activity [14]. Jang [16] showed that the anthocyanins in black soybean can increase testicular weight, sperm motility, and spermatogenesis, related to decrease oxidative stress.

The result of the present study show there was a significant difference in 17P-estradiollevels between negative control and positive control animals. This is in accordance with a previous study showing that administration of cigarette smoke to rats for 3 months decreased estradiol levels [23]. In the present study, rats exposed to cigarette smoke (K+) had lower 17P-estradiol levels compared to healthy rats (K-). Attia [24] showed the estradiol serum levels are lower in passive smokers than in non-smokers. According to Kapoor and Jones [25], cigarette smoke has an anti-estrogenic effect in women, which may cause irregular menstrual cycles, increased risk of an ovulation, infertility, and premature menopause.

Estrogen is known to have strong antioxidant properties. It has been reported that estrogen is affected radical levels (O2-) [26]. Estrogen increases oxidative phosphorylation, and simultaneously decreases radical generation [27]. Low estrogen levels reduce the activity of SOD and GPx. Decreased levels of these enzymes will lead to H2O2 accumulation in the cell, resulting in SOD inactivation [28].

Cigarette smoke inhibits ovarian follicle growth [9], increases apoptosis [10] and causes ovarian damage [11]. Disturbances in follicle growth due to cigarette smoking will further affect estrogen production. The concentration of 17P-estradiol relies upon ovarian follicles required for ovulation; normal follicle development is correlated with normal hormone levels [12].

Estrogen produced during follicle maturation stimulates GnRH to produce FSH and LH. In the uterus, estrogen also promotes endometrial proliferation. Elevated LH (the LH surge) in the middle of the cycle causes follicle break down, thus stimulating ovulation. If ovulation does not occur, the corpus luteum is not present either. The progesterone will be released in endometrium and can not support GnRH to produce FSH and LH. The absence of FSH, LH by GnRH promotes follicle maturation in which estrogen is not produced and leads to any endometrial proliferation. Repeated events result in endometrial atrophy [29].

2020. Volume 9. Issue 3 (September). Article CID e0308 DOI: 10.15275/rusomj.2020.0308_

Clinical Nutrition

Treatment with anthocyanins at a dose of 20 mg increased 17P-estradiol levels, although the effect was not significant, whereas at a dose of 40 mg and 80 mg, there was a significant difference in 17P-estradiol levels. These results are in accordance with a study done by Scorvita [30] showing that a mangosteen peel ethanolic extract could prevent the reduction in testosterone production caused by cigarette smoke exposure in male Wistar rats. Mangosteen peel contains mangostin, tannin, anthon, crysanthemin, garcinone, gartanin, vitamin B1, B2, terpen, anthocyanin, phenol, andother bioactive compounds.

Anthocyanins are flavonoids, i.e. polyphenolic compounds known to possess antioxidant activity [21]. Flavonoids possess 15 carbon atoms that form a chemical backbone. Flavonoids are phytoestrogens, i.e. non-steroid compounds derived from plants that have estrogenic activities.

Anthocyanins are polyphenolic compounds with antioxidant activity, so they can stopthe free radical chain reaction in the hypothalamus [31]. In the female, gonadotrophin releasing hormone (GnRH) secreted from the hypothalamus stimulates the release of luteinizing hormone (LH) and follicle-stimulating hormone (FSH) from the anterior pituitary. FSH and LH are secreted at different levels during the estrus cycle. In the early phase (follicular), FSH stimulates follicle growth, one of which rapidly develops into a Graafian follicle (GF) that subsequently produces estradiol [32]. Thus, disturbances in follicle growth affect estrogen production.

Anthocyanins from sweet potato increase the granulose content of primary, secondary, and Graafian follicles. Estrogen is produced by granulose cells and follicles viaan enzymatic reaction [33]. The granulose contains many FSH receptors, and FSH facilitates 17P-estradiol secretion with cAMP activation to enhance the aromatics compounds formation of aromatics. Mature granulose cells also possess LH receptors, and LH stimulates 17P-estradiol secretion. Estrogen synthesis is increased along with follicle development in the ovary. In summary, the present study shows the effect of anthocyanins from sweet potato on increasing 17P-estradiol production in rats exposed to cigarette smoke.

Conclusion

The present study showed that anthocyanins from the sweet potato (I. batatas L.) purple cultivar at various doses decreased MDA level in the ovary and increased 17P-estradiol levels in rats exposed to cigarette smoke. A higher dose of anthocyanins was associated with lower MDA and higher 17P-estradiol levels in rats exposed to cigarette smoke.

Conflict of interest

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The authors declare that they have no conflict of interest.

Ethical approval

All procedures performed in studies involving animals were in accordance with the ethical standards of the institution or practice at which the studies were conducted.

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Clinical Nutrition

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Authors:

Baharika Suci Dwi Aningsih - Master of Midwifery, Graduate Student of Midwifery Program, Faculty of Medicine, Brawijaya University, Malang, Indonesia. https://orcid.org/0000-0001-8483-283X.

Hidayat Sujuti - MD, PhD, Head of Magister Program of Biomedical,

Pharmacology Laboratory, Faculty of Medicine, Brawijaya University,

Malang, Indonesia. https://orcid.org/0000-0001-8155-0036.

Edy Mustofa - dr. Obstetrician, Head of Program of Study in Sub Specialist

Social, Obstetrics, Gynecology (Obgynsos) Center, Dr. Saiful Anwar General

Hospital, Faculty of Medicine, Brawijaya University, Malang, Indonesia.

https://orcid.org/0000-0002-4197-3250.

Retty Ratnawati - MSc, Senior Lecture, Physiology Laboratory, Faculty of Medicine, Brawijaya University, Malang, Indonesia. https://orcid.org/0000-0002-0465-4090.

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