Faranak Mavandadnejad, Elnaz Faghfuri, Narges Mokhtari-Nori, S. Rezaie, A. Shahverdi
{"title":"纳米硒和二硫化硒对两种马拉色菌的抑菌活性","authors":"Faranak Mavandadnejad, Elnaz Faghfuri, Narges Mokhtari-Nori, S. Rezaie, A. Shahverdi","doi":"10.21694/2642-2980.19002","DOIUrl":null,"url":null,"abstract":"Yeasts of the genus Malassezia are lipophilic fungi of the normal skin flora of humans and other warm-blooded animals, but they may also be the cause of skin disorders, including dandruff and seborrhoeic dermatitis [Aggarwal ,et al.,2003; Anwar et al.,2016; Roques ,et al.,2006; Rudramurthy et al.,2014]. Seborrhoeic dermatitis (SD), covering areas of the scalp, face and trunk, is a superficial inflammatory skin disorder, which affects 1%10% of the population[Roques et al., 2006]. These diseases are treated with antimycotic shampoos containing various antifungal agents, including selenium disulfide (SeS2), which has antifungal activity against a variety of fungi, including Malasseziaspp[Aggarwal ,et al., 2003; Chu et al., 1984; McGinley et al., 1982; Van Cutsem et al.,1990]. A low concentration of selenium is essential to living organisms [Kitajima et al., 2013]. As a trace element, it is incorporated in the amino acids of selenoproteins and antioxidant enzymes and it protects cells from free radicals. However, in higher concentration, it inhibits fungal growth[Keiliszek et al., 2015; Kitajima et al., 2013] The reason for the antifungal activity of selenium inMalassezia has not been studied but Wu et al [Wu et al., 2014] found that a high concentration of selenium damages the cellular oxygen-eliminating system ofPenicilliumexpansum, which leads to an increase in the production of intracellular ROS. In P. expansum, the inhibitory effect is related to the selenium concentration used[Wu et al.,2014]. SeS2 has been shown to have antifungal activity against Malassezia[Aggarwal ,et al., 2003,McGinley et al., 1982]. However, after treatment with antifungal agents, including SeS2, SD tends to relapse. Aggarwal et al treated 20 SD patients once a week for three weeks with 2.5% SeS2 shampoo and one month after therapy found that three of the patients had mild or considerable residual disease. There is a need for finding more effective compounds for the treatment of S.D. and investigating the reason for the recurrence of infection after SeS2 treatment. Antifungal Activity of Selenium Nanoparticles and Selenium Disulfide against Two Malassezia Species Research Article Open Access American Research Journal of Dermatology Volume 1, Issuse 1, pp: 22-28","PeriodicalId":131070,"journal":{"name":"American Research Journal of Dermatology","volume":"71 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"1900-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"4","resultStr":"{\"title\":\"Antifungal activity of selenium nanoparticles and selenium disulfide against two Malassezia species\",\"authors\":\"Faranak Mavandadnejad, Elnaz Faghfuri, Narges Mokhtari-Nori, S. Rezaie, A. 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As a trace element, it is incorporated in the amino acids of selenoproteins and antioxidant enzymes and it protects cells from free radicals. However, in higher concentration, it inhibits fungal growth[Keiliszek et al., 2015; Kitajima et al., 2013] The reason for the antifungal activity of selenium inMalassezia has not been studied but Wu et al [Wu et al., 2014] found that a high concentration of selenium damages the cellular oxygen-eliminating system ofPenicilliumexpansum, which leads to an increase in the production of intracellular ROS. In P. expansum, the inhibitory effect is related to the selenium concentration used[Wu et al.,2014]. SeS2 has been shown to have antifungal activity against Malassezia[Aggarwal ,et al., 2003,McGinley et al., 1982]. However, after treatment with antifungal agents, including SeS2, SD tends to relapse. Aggarwal et al treated 20 SD patients once a week for three weeks with 2.5% SeS2 shampoo and one month after therapy found that three of the patients had mild or considerable residual disease. There is a need for finding more effective compounds for the treatment of S.D. and investigating the reason for the recurrence of infection after SeS2 treatment. 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引用次数: 4
摘要
马拉色菌属酵母菌是人类和其他温血动物正常皮肤菌群的亲脂真菌,但它们也可能是皮肤疾病的原因,包括头皮屑和脂皮炎[Aggarwal等,2003;Anwar et al.,2016;Roques等人,2006;Rudramurthy et al.,2014]。脂溢性皮炎(SD)是一种覆盖头皮、面部和躯干的浅表炎症性皮肤病,影响1% - 10%的人群[Roques et al., 2006]。这些疾病用含有各种抗真菌剂的抗真菌洗发水治疗,包括二硫化硒(SeS2),它对多种真菌具有抗真菌活性,包括马拉色菌[Aggarwal等人,2003;Chu et al., 1984;McGinley et al., 1982;Van Cutsem等,1990]。低浓度的硒对生物体至关重要[Kitajima et al., 2013]。作为一种微量元素,它被纳入硒蛋白和抗氧化酶的氨基酸中,并保护细胞免受自由基的侵害。然而,在较高浓度下,它会抑制真菌生长[Keiliszek et al., 2015;Kitajima et al., 2013]硒在马拉塞菌中抗真菌活性的原因尚未研究,但Wu等[Wu et al., 2014]发现高浓度的硒破坏了扩张青霉的细胞除氧系统,导致细胞内ROS的产生增加。在草中,抑制效果与使用的硒浓度有关[Wu et al.,2014]。SeS2已被证明对马拉塞菌具有抗真菌活性[Aggarwal等,2003;McGinley等,1982]。然而,在使用包括SeS2在内的抗真菌药物治疗后,SD容易复发。Aggarwal等用2.5% SeS2洗发水每周治疗20例SD患者1次,持续3周,治疗1个月后发现3例患者有轻度或相当程度的残留疾病。有必要寻找更有效的药物来治疗sd,并研究SeS2治疗后感染复发的原因。纳米硒和二硫化硒对两种马拉色菌的抗真菌活性研究论文美国皮肤病学研究杂志第1卷第1期,pp: 22-28
Antifungal activity of selenium nanoparticles and selenium disulfide against two Malassezia species
Yeasts of the genus Malassezia are lipophilic fungi of the normal skin flora of humans and other warm-blooded animals, but they may also be the cause of skin disorders, including dandruff and seborrhoeic dermatitis [Aggarwal ,et al.,2003; Anwar et al.,2016; Roques ,et al.,2006; Rudramurthy et al.,2014]. Seborrhoeic dermatitis (SD), covering areas of the scalp, face and trunk, is a superficial inflammatory skin disorder, which affects 1%10% of the population[Roques et al., 2006]. These diseases are treated with antimycotic shampoos containing various antifungal agents, including selenium disulfide (SeS2), which has antifungal activity against a variety of fungi, including Malasseziaspp[Aggarwal ,et al., 2003; Chu et al., 1984; McGinley et al., 1982; Van Cutsem et al.,1990]. A low concentration of selenium is essential to living organisms [Kitajima et al., 2013]. As a trace element, it is incorporated in the amino acids of selenoproteins and antioxidant enzymes and it protects cells from free radicals. However, in higher concentration, it inhibits fungal growth[Keiliszek et al., 2015; Kitajima et al., 2013] The reason for the antifungal activity of selenium inMalassezia has not been studied but Wu et al [Wu et al., 2014] found that a high concentration of selenium damages the cellular oxygen-eliminating system ofPenicilliumexpansum, which leads to an increase in the production of intracellular ROS. In P. expansum, the inhibitory effect is related to the selenium concentration used[Wu et al.,2014]. SeS2 has been shown to have antifungal activity against Malassezia[Aggarwal ,et al., 2003,McGinley et al., 1982]. However, after treatment with antifungal agents, including SeS2, SD tends to relapse. Aggarwal et al treated 20 SD patients once a week for three weeks with 2.5% SeS2 shampoo and one month after therapy found that three of the patients had mild or considerable residual disease. There is a need for finding more effective compounds for the treatment of S.D. and investigating the reason for the recurrence of infection after SeS2 treatment. Antifungal Activity of Selenium Nanoparticles and Selenium Disulfide against Two Malassezia Species Research Article Open Access American Research Journal of Dermatology Volume 1, Issuse 1, pp: 22-28
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