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    Ameliorative effects of sinapic acid against vancomycin-induced testicular oxidative damage, apoptosis, inflammation, testicular histopathologic disorders and decreased epididymal sperm quality
    (Elsevier, 2024) Akarsu, Serkan Ali; İleritürk, Mustafa; Küçükler, Sefa; Akaras, Nurhan; Gür, Cihan; Kandemir, Fatih Mehmet
    In this study, it was aimed to determine the effect of sinapic acid (SNP), a polyphenol with antioxidant, anti-inflammatory and antibacterial properties, on testicular damage caused by vancomycin (VCM), a widely used antibiotic against gram positive bacteria. A total of 35 male Sprague Dawley rats were used in the study, divided into five groups: control, VCM, SNP, VCM + SNP 10, and VCM + SNP 20. Following a week of oral administration, the rats were euthanized under sevoflurane anesthesia. While the VCM group had a significant increase in MDA levels, the SNP administration inhibited the increase in MDA levels. VCM led to a significant decrease in GSH levels, SOD, CAT, and GPx activity in the testicular tissue of rats, while SNP administration increased these antioxidant levels. SNP administration decreased the mRNA expression levels of VCM induced Nrf-2, HO-1, and NQO1 in testicular tissue while increasing the levels of MAPK14, MAPK15, JNK, P53, Apaf-1, Caspase-3, Caspase-6, Caspase-9, and Beclin-1 mRNA transcript levels. The VCM group showed a significant increase in Bax and NF-?B levels in testicular tissue, while Bcl-2 levels decreased. VCM significantly decreased sperm motility and increased the percentage of damaged sperm in rats. Histopathological results revealed that VCM caused disruption of basement membranes and disorganization of seminiferous tubules, but SNP administration preserved testicular histology. As a result, VCM increased oxidative stress, apoptosis, and autophagy in the testicular tissue of rats, altered testicular histopathology, and decreased sperm quality, while SNP decreased these effects.
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    Carvacrol reduces abnormal and dead sperm counts by attenuating sodium arsenite-induced oxidative stress, inflammation, apoptosis, and autophagy in the testicular tissues of rats
    (Wiley, 2023) Gür, Cihan; Akarsu, Serkan Ali; Akaras, Nurhan; Tuncer, Sibel Çiğdem
    Arsenic (As) is a highly toxic metalloid. Carvacrol (CAR) is the active ingredient of Lamiaceae plants and has various biological and pharmacological properties. The present study investigated the protective effects of carvacrol (CAR) against testicular toxicity induced by sodium arsenite (SA). Rats were given SA (10 mg/kg) and/or CAR (25 or 50 mg/kg) for 14 days. Semen analyzes showed that CAR increased sperm motility and decreased the percentage of abnormal and dead sperm. It was determined that the oxidative stress induced by SA decreased with the increase of Nrf-2 and HO-1 expressions, SOD, CAT, GPx, and GSH levels, and MDA levels decreased after CAR treatment. It was observed that autophagy and inflammation triggered by SA in testicular tissue were alleviated by suppressing the expressions of LC3A, LC3B, MAPK-14, NF-?B, TNF-?, IL-1?, iNOS, and COX-2 biomarkers in rats given CAR. Also, CAR treatment suppressed SA-induced apoptosis by inhibiting Bax and Caspase-3 expressions in testicles and up-regulating Bcl-2 expression. Histopathological analyzes showed that rats given SA had deterioration in tubule structure and spermatogenesis cell line, especially a serious loss of spermatogonia cells, atrophy of seminiferous tubules, and deterioration of germinal epithelium. In the group given CAR, the germinal epithelium and connective tissue were in normal morphological structure and an increase in seminiferous tubule diameters was observed. As a result, it was determined that oxidative stress, inflammation, autophagy, and apoptosis induced by SA were suppressed by CAR, thus protecting the testicular tissue from damage and increasing semen quality.
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    Effect of syringic acid on oxidative stress, autophagy, apoptosis, inflammation pathways against testicular damage induced by lead acetate.
    (Elsevier GmbH, 2023) Akarsu, Serkan Ali; Gür, Cihan; İleritürk, Mustafa; Akaras, Nurhan; Küçükler, Sefa; Kandemir, Fatih Mehmet
    Heavy metals are one of the environmental pollutants. Lead (Pb) is one of the most common of these heavy metals. In this study, it was aimed at investigating the effects of syringic acid (SA) against testicular toxicity in rats administered lead acetate (PbAc). Methods: In the present study, a total of 35 Sprague-Dawley rats, 7 in each group, were used. The rats were divided into 5 groups, with 7 male rats in each group. Rats were given PbAc and SA orally for 7 days. The effects of PbAc and SA on epididymal sperm quality and apoptosis, inflammation, oxidative stress and histopathological changes in testicular tissue were determined. Results: While PbAc disrupted the seminiferous tubules and produced atrophic images, SA corrected these histological abnormalities. PbAc adminisration significantly reduced the levels of SOD, GSH, GPx, CAT, NRF-2 and NQO1 and significantly increased the levels of MDA and 8-OHdG in the testicular tissue of rats, while SA improved this situation. NF-?B, TNF-?, IL-1?, NLRP3, RAGE, ATF6, PERK, IRE1, CHOP, and GRP78 genes expression levels increased with PbAc administration, however these levels decreased with SA administration. In addition, PbAc increased the levels of apoptotic markers Bax, Caspase-3 and APAF-1 and decreased the level of Bcl-2, while SA improved this situation. It was observed that PbAc significantly reduced sperm quality in rats, while SA positively affected sperm quality. Conclusion: As a result, SA administered against PbAc-induced testicular dysfunction in rats can provide effective protection at doses of 25 mg/kg/bw and 50 mg/kg/bw.
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    Effects of sinapic acid on lead acetate-induced oxidative stress, apoptosis and inflammation in testicular tissue
    (John Wiley and Sons Inc, 2023) Tuncer, Sibel Çiğdem; Akarsu, Serkan Ali; Küçükler, Sefa; Gür, Cihan; Kandemir, Fatih Mehmet
    In this study, the effect of lead acetate (PbAc) and sinapic acid (SNP) administration on oxidative stress, apoptosis, inflammation, sperm quality and histopathology in testicular tissue of rats was tried to be determined. PbAc was administered at a dose of 30 mg/kg/bw for 7 days to induce testicular toxicity in rats. Oral doses of 5 and 10 mg/kg/bw SNP were administered to rats for 7 days after PbAc administration. According to our findings, while PbAc administration increased MDA content in rats, it decreased GPx, SOD, CAT activity and GSH content. NF-kB, IL-1?, TNF-?, and COX-2, which are among the inflammation parameters that increased due to PbAc, decreased with the administration of SNP. Nrf2, HO-1, and NQO1 mRNA transcript levels decreased with PbAc, but SNP treatments increased these mRNA levels in a dose-dependent manner. RAGE and NLRP3 gene expression were upregulated in PbAc treated rats. MAPK14, MAPK15, and JNK relative mRNA levels decreased with SNP treatment in PbAc treated rats. While the levels of apoptosis markers Bax, Caspase-3, and Apaf-1 increased in rats treated with PbAc, the level of Bcl-2 decreased, but SNP inhibited this apoptosis markers. PbAc caused histopathological deterioration in testis tissue and negatively affected spermatogenesis. When the sperm quality was examined, the decrease in sperm motility and spermatozoon density caused by PbAc, and the increase in the ratio of dead and abnormal spermatozoa were inhibited by SNP. As a result, while PbAc increased apoptosis and inflammation by inducing oxidative stress in testicles, SNP treatment inhibited these changes and increased sperm quality.
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    Effects of zingerone on rat induced testicular toxicity by sodium arsenite via oxidative stress, endoplasmic reticulum stress, inflammation, apoptosis, and autophagy pathways
    (Mashhad University of Medical Sciences, 2024) Tuncer, Sibel Çi?dem; Gür, Cihan; Küçükler, Sefa; Akarsu, Serkan Ali; Kandemir, Fatih Mehmet
    This study aimed to investigate the effects of zingerone (ZNG) treatment on testicular toxicity in rats induced by sodium arsenite (SA). Materials and Methods: In the study, five groups were formed (n=7) and the experimental groups were designated as follows; Vehicle group, ZNG group, SA group, SA+ZNG 25 group, and SA+ZNG 50 group. While SA was administered orally to rats at 10 mg/kg/bw, ZNG was given to rats orally at 25 and 50 mg/kg/bw doses for 14 days. Results: As a result of the presented study, an increase was observed in the MDA contents of the testicular tissue of the rats administered SA, while significant decreases were observed in GSH levels, SOD, CAT, and GPx activities. The mRNA transcript levels of the pro-inflammatory genes NF-?B, TNF-?, IL-1?, and IL-6 were triggered after SA administration. Additionally, SA administration caused inflammation by increasing RAGE, NLRP3, and JAK-2/STAT3 gene expression. Moreover, endoplasmic reticulum (ER) stress occurred in the testicular tissues of SA-treated rats and thus ATF-6, PERK, IRE1, and GRP78 genes were up-regulated. SA caused apoptosis by up-regulating Bax and Caspase-3 expressions and inhibiting Bcl-2 expression in testicles. SA caused histological irregularities in the testicles, resulting in decreased sperm quality. Conclusion: ZNG treatment reduced SA-induced oxidative stress, ER stress, inflammation, apoptosis, and histological irregularities in the testicles while increasing sperm quality. As a result, it was observed that ZNG could alleviate the toxicity caused by SA in the testicles.
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    Investigation of the Effects of Rutin on Valproic Acid Induced Testicular Damage in Rats
    (Afyon Kocatepe Üniversitesi, 2023) Akarsu, Serkan Ali; Kankılıç, Nazım Abdülkadir; Erdoğan, Ender
    Valproic acid (VALP) is a drug used for many psychiatric diseases such as epilepsy. However, the use of VALP has potential side effects on various tissues, including the testicles. Rutin (RUT) is a flavonoid with protective effects against oxidative stress-induced diseases and lipid peroxidation. In this study, the protective effects of RUT against testicular damage caused by VALP were investigated. For this purpose, 35 male Spraque-Dawley rats weighing 220-250 g were used in the study. The rats were randomly divided into 5 groups as Control (physiological saline), RUT (100 mg/kg/bw), VALP, (500mg/kg/bw), VALP+RUT 50 (500 mg/kg/bw VALP+50 mg/kg/bw RUT), and VALP +RUT 100 (500 mg/kg/bw VALP+100 mg/kg/bw RUT).
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    Naringin protects against paclitaxel-induced toxicity in rat testicular tissues by regulating genes in pro-inflammatory cytokines, oxidative stress, apoptosis, and JNK/MAPK signaling pathways
    (John Wiley and Sons Inc, 2024) Kankılıç, Nazım Abdülkadir; Küçükler, Sefa; Gür, Cihan; Akarsu, Serkan Ali; Akaras, Nurhan; Şimşek, Hasan; İleritürk, Mustafa; Kandemir, Fatih Mehmet
    Paclitaxel (PTX), which is actively used in the treatment of many types of cancer, has a toxic effect by causing increased oxidative stress in testicular tissues. Naringin (NRG) is a natural flavonoid found in plants, and its antioxidant properties are at the forefront. This study aims to investigate the protective feature of NRG in PTX-induced testicular toxicity. Thirty-five male Sprague rats were divided into five groups: control, NRG, PTX, PTX + NRG50, and PTX + NRG100. Rats were administered PTX (2 mg/kg, BW) intraperitoneally once daily for the first 5 days. Then, between the 6th and 14th days, NRG (50 and 100 mg/kg) was administered orally once a day. NRG reduced PTX-induced lipid peroxidation and increased testicular tissue antioxidant capacity (superoxide dismutase, catalase, glutathione peroxidase, and glutathione). While NRG reduces the mRNA expression levels of nuclear factor kappa B, tumor necrosis factor-alpha, interleukin-1 beta, cyclooxygenase-2, interleukin-6, inducible-nitric oxide synthase, mitogen-activated protein kinase 14 (MAPK)14, MAPK15, c-Jun N-terminal kinase, P53, Apaf1, Caspase3, Caspase6, Caspase9, and Bax in testicular tissues; it caused an increase in Nrf2, HO-1, NQO1 and Bcl-2 levels. NRG also improved the structural and functional integrity of testicular tissue disrupted by PTX. PTX-induced sperm damage was alleviated by NRG. NRG showed a protective effect by alleviating the PTX-induced testicular toxicity by increasing oxidative stress, inflammation, apoptosis, and autophagy.
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    Protective effects of syringic acid against oxidative damage, apoptosis, autophagy, inflammation, testicular histopathologic disorders, and impaired sperm quality in the testicular tissue of rats induced by mercuric chloride
    (John Wiley and Sons Inc, 2024) Akarsu, Serkan Ali; Gür, Cihan; Küçükler, Sefa; Akaras, Nurhan; İleritürk, Mustafa; Kandemir, Fatih Mehmet
    Mercury (Hg) is one of the most toxic heavy metals that damage testicular tissue. Mercury chloride (HgCl2) is one of the most toxic forms of mercury that can easily cross biological membranes. Syringic acid (SA) is a natural flavonoid found in many vegetables and fruits. In this study, the effects of SA against HgCl2-induced testicular damage in rats were determined by biochemical, histopathological, and spermatological analyses. For this study, a total of 35 Spraque Dawley rats were used. Rats were divided into five groups as control, HgCl2, SA 50, HgCl2 + SA 25, and HgCl2 + SA 50. HgCl2 was administered intraperitoneal (IP) at a dose of 1.23 mg/kg/bw, while SA was administered by oral gavage at doses of 25 and 50 mg/kg/bw. The rats were then sacrificed, and testicular tissues were removed. HgCl2 caused an increase in MDA level and a decrease in SOD, CAT, and GPx activity and GSH level in the testicular tissue of rats. HgCl2 is involved in the increase of eIF2-?, PERK, ATF-4, ATF-6, CHOP, NF-?B, TNF-?, IL-1?, Apaf-1, Bax, and Caspase-3 mRNA expression. HgCl2 caused a decrease in sperm motility, an increase in the rate of abnormal sperm and sperm DNA fragmentation in rats. However, SA oral administration dose-dependently inhibited endoplasmic reticulum stress, oxidative stress, inflammation, and apoptosis and preserved epididymal sperm quality and testicular histoarchitectures. In conclusion, SA had protective effects against HgCl2-induced testicular oxidative damage, inflammation, endoplasmic reticulum stress, and apoptosis.