基于体外试验评价透明质酸眼刺激保护作用

doi:10.3969/j.issn.1001-1803.2022.04.009

摘要/Abstract

摘要：

通过荧光素渗漏试验和重组人角膜上皮-眼刺激（ET₅₀）试验,研究了高分子、低分子、酶切寡聚三种不同分子量的透明质酸对眼刺激的保护作用。参照OCED TG460选择七种物质在本实验室验证荧光素渗漏试验;并进一步采用荧光素渗漏试验和重组人角膜上皮-眼刺激（ET₅₀）试验评价了三种透明质酸对荧光素钠渗漏率、细胞存活率等的影响,得到了透明质酸对眼刺激的保护作用体外评价结果。荧光素渗漏试验证实,10 g/L透明质酸能显著抑制0.25 g/L苯扎溴铵造成的MDCK细胞荧光素渗漏率增加;重组人角膜上皮-眼刺激试验证实,20 g/L酶切寡聚透明质酸能显著抑制乙酸甲酯造成的细胞存活率降低;重组人角膜上皮-眼刺激（ET₅₀）试验证实,10 g/L透明质酸能显著抑制0.5 g/L苯扎溴铵造成的组织模型细胞存活率降低,增加ET₅₀值。结果表明,三种透明质酸均具有眼刺激性保护作用,揭示了透明质酸在化妆品应用的新前景,同时也为透明质酸眼刺激舒缓功效的评价开发了新方法。

关键词: 眼刺激, 透明质酸, 眼刺激试验, 重组人角膜上皮, 荧光素渗漏试验

Abstract:

Fluorescein leakage （FL） test and recombinant human corneal epithelial cell model eye stimulation （ET₅₀） test were both took to investigate the protective effects of three different molecular weight hyaluronic acids （HA） including high, low and oligomeric on eye irritation. Firstly, seven verification substances in different stimulation levels including benzalkonium chloride （5%）, 4-carboxy-benzaldehyde, promethazine hydrochloride, ethyl-2-methylaceto-acetate, glycerol, sodium lauryl sulfate （15%, w/%） and sodium hydroxide （10%, w/%） were used to verify the luciferin leakage test in our own laboratory. Then, fluorescein leakage test and in vitro artificial cornea model-eye stimulation ET₅₀ test were both conducted to evaluate the inhibitory effect of three hyaluronic acids on eye irritation by the index of fluorescence leakage rate as well as cell survival rate. Fluorescein leakage test method is established successfully and is confirmed that 10 g/L mass concentration of hyaluronic acid can significantly reduce the increase of fluorescence leakage rate caused by 0.25 g/L mass concentration of benzalkonium bromide. What’s more, incubating for another 24 h after exposure to 10 g/L mass concentration of hyaluronic acid and 0.25 g/L mass concentration of benzalkonium bromide for 30 min, the cell survival rate does not change, but the morphological change of the cells can be observed tending to be normal under the microscope, compared to the cells treated by 0.25 g/L mass concentration of benzalkonium bromide only. Meanwhile, in vitro artificial corneal model-eye stimulation test confirms that oligo hyaluronic acid can significantly inhibit the decrease of cell survival rate which causes by methyl acetate at mass concentration of 20 g/L rather than 10 g/L. Accordingly, in vitro artificial corneal model-eye stimulation test （ET₅₀） confirms that 10 g/L mass concentration of hyaluronic acid can significantly inhibit the decrease of cell survival rate and increase the ET₅₀ value which is induced by 0.5 g/L mass concentration of benzalkonium bromide, but it falls flat on serious irritation induced by 10% （w/%） content of Brij35 solution. In conclusion, these results show that high, low and oligomeric molecular weight hyaluronic acid can all significantly reduce the irritation of ocular stimulation induced by mild positive substances, which provides a basis for the protective effect of hyaluronic acid, reveals a new prospect of the application of hyaluronic acid in cosmetics and presents a new method of efficacy evaluation on cosmetic raw materials.

Key words: eye irritation, hyaluronic acid, eye irritation test, recombinant human corneal epithelium, fluorescein leakage

中图分类号:

TQ658

耿雪,苏昕宇,张艳美,黄思玲,赵锷,祝清芬. 基于体外试验评价透明质酸眼刺激保护作用[J]. 日用化学工业, 2022, 52(4): 404-409.

Geng Xue,Su Xinyu,Zhang Yanmei,Huang Siling,Zhao E,Zhu Qingfen. In vitro study on the protective effects of hyaluronic acid on eye irritation[J]. China Surfactant Detergent & Cosmetics, 2022, 52(4): 404-409.

图/表 7

表1

图1

图2

图3

图4

图5

图6

参考文献 11

[1]	Mu Shue, Chen Yujuan, Chen Wenwen, et al. Determination of sodium hyaluronate by HPLC[J]. Journal of Pharmaceutical Research, 2020, 39 (3) : 146-148, 180.
[2]	Bukhari S N A, Roswandi N L, Waqas M, et al. Hyaluronic acid, a promising skin rejuvenating biomedicine: a review of recent updates and pre-clinical and clinical investigations on cosmetic and nutricosmetic effects[J]. Int J Biol Macromol, 2018, 120: 1682-1695. doi: S0141-8130(18)33770-X pmid: 30287361
[3]	Kwon S S, Kong B J, Park S N. Physicochemical properties of pH-sensitive hydrogels based on hydroxyethyl cellulose-hyaluronic acid and for applications as transdermal delivery systems for skin lesions[J]. Eur J Pharm Biopharm, 2015, 92: 146-154. doi: 10.1016/j.ejpb.2015.02.025
[4]	Tang Zeyan, Guo Xueping, Wen Ximing, et al. Effects of hyaluronic acid with different molecular weight on the transdermal absorption of reduced glutathione[J]. Journal of China Pharmaceutical University, 2021, 52 (2) : 203-210.
[5]	Yang Yamei, He Hao, Wang Wenping, et al. Preventive effect of self-crosslinking sodium hyaluronate gel on rat intrauterine adhesion formation and its effect on NF-κB related factors[J]. Chinese Journal Gerontology, 2021, 41 (6) : 1257-1262.
[6]	Matsuda S, Hisama M, Shibayama H, et al. In vitro eye irritancy test on lauryl derivatives using the reconstructed rabbit corneal epithelium model[J]. Toxicol in Vitro, 2009, 23 (4) : 555-560. doi: 10.1016/j.tiv.2009.02.003 pmid: 19490837
[7]	Qu Xiaoting, Cheng Shujun. Global regulation trend of alternative methods for chemical safety evaluation on animals[J]. Detergent & Cosmetics, 2016, 39 (2) : 11-16.
[8]	Chen Lizhen, Jin Shufang, Pan Yufang. Research on progress of alternative methods for cosmetic eye irritation test[J]. Guangdong Chemical Industry, 2016, 43 (21) : 81-83, 91.
[9]	Yu Mingyan, Geng Xue, Zhang Naibin, et al. Quality evaluation of domestic tobramycin eye drops[J]. Chinese Journal of Antibiotics, 2019, 44 (3) : 334-339.
[10]	OECD.OECD guideline for the testing of chemicals, Test No. 460: Fluorescein Leakage Test Method for Identifying Ocular Corrosives and Severe Irritants [S]. Paris: OECD Publishing, 2017.
[11]	OECD. OECD guideline for the testing of chemicals, Test No. 492: Reconstructed human cornea-like epithelium (RhCE) test method for identifying chemicals not requiring classification and labelling for eye irritation or serious eye damage [S]. Paris: OECD Publishing, 2019.

组别		受试物名称
组别		5%苯扎氯铵	4-对甲酰基苯甲酸	盐酸异丙嗪	2-甲基乙酰乙酸乙酯	甘油	15% NaOH水溶液	10%十二烷基硫酸钠
FL/%	T1	1	1	5	4	0	-6	3
	T2	2	5	23	2	4	65	1
	T3	4	5	28	4	1	53	0
	T4	19	7	31	1	9	66	1
	T5	25	28	30	5	21	67	21
FL₂₀/（g/L）		2.5	559.52	21	—	1 165.29	9.79	9.55
结果判定		阳性	阴性	阳性	阴性	阴性	阳性	阳性
是否符合		符合	符合	符合	符合	符合	符合	符合

[1]	谢珍, 黄微, 张劲松, 陈舒怀, 瞿霖吉, 匡荣. 化妆品眼刺激性评价中角膜损伤生物标志物研究[J]. 日用化学工业（中英文）, 2024, 54(2): 161-167.
[2]	陈帆,杨君,杨素萍,吴越. 水解透明质酸锌的抗痤疮功效研究[J]. 日用化学工业（中英文）, 2023, 53(2): 165-170.
[3]	郭海姣, 王晓娜, 杨素珍, 袁春颖, 任轩, 韩婷婷. 透明质酸锌的护肤功效研究[J]. 日用化学工业（中英文）, 2023, 53(12): 1429-1436.
[4]	林铌,罗飞亚,曹春然,胡宇驰. 基于in vitro和in silico技术的化学品眼刺激性评价替代方法研究[J]. 日用化学工业, 2022, 52(9): 1016-1022.
[5]	张君芳. 高效液相色谱-串联质谱法快速测定护肤透明质酸中抗菌药物[J]. 日用化学工业, 2022, 52(6): 677-682.
[6]	何立成,孙叶丹,朱社敏,匡荣. 基于BioOcullar^®模型的清洁类化妆品眼刺激性评价方法的建立[J]. 日用化学工业, 2022, 52(5): 529-533.
[7]	胡晨毓,曲文杰,郭学平,徐桂欣,邹松岩,王靖. 透明质酸钠的多重护发功效研究[J]. 日用化学工业, 2022, 52(4): 370-375.
[8]	石晶,冯云,包杰,樊建茹,徐桂云,范金石. 天然生物质材料的制备、性质与应用（Ⅲ）——医护两用的糖胺聚糖：透明质酸[J]. 日用化学工业, 2022, 52(3): 237-244.
[9]	杨井国,沈胡驰,陈殿松,赵锷,蔡臻子,王靖. 含茶皂素洗发水的安全性及头皮护理功效评价[J]. 日用化学工业, 2021, 51(4): 331-337.
[10]	李劲峰,高鹰,宁科功,张秋霞,刘萍,伍鹏,李黎仙. 一种低黏度悬浮液体系的开发研究[J]. 日用化学工业, 2021, 51(2): 132-138.
[11]	谢珍,陈舒怀,刘璐,何立成,桑晶,朱琰琴,匡荣. 基于细胞活性生物标记物的BCOP方法预测洗发水、沐浴露、洁面类化妆品的眼刺激性[J]. 日用化学工业, 2021, 51(2): 109-114.
[12]	石梦琳,刘力嘉,尚亚卓,刘洪来. 疏水改性透明质酸的制备及性能[J]. 日用化学工业, 2020, 50(11): 776-782.
[13]	黄健聪, 陈志杰, 陈义珠, 秦瑶. 利用离体牛角膜多次暴露方法评测化妆品套装的眼刺激性[J]. 日用化学工业, 2018, 48(2): 109-112.
[14]	陈莉, 陈卫, 季文君, 朱乃军, 方韵. 采用贝叶斯网络法评价化妆品原料眼刺激性[J]. 日用化学工业, 2017, 47(10): 568-572.
[15]	喻欢,陈彧,程树军,秦瑶. 利用3D皮肤模型研究不同分子量透明质酸的抗刺激作用[J]. 日用化学工业, 2016, 46(6): 339-343.