Allergenic components in modified and unmodified rosin. Chemical characterization and studies of allergenic activity.

E Gäfvert
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Abstract

Gäfvert, E. 1994. Allergenic components in modified and unmodified rosin. Chemical characterization and studies of allergenic activity. Acta Dermato-Venereologica. Suppl. 184. 36pp. Uppsala. Unmodified rosin (colophony) is a well-known cause of contact allergy (delayed type hypersensitivity). Rosin is obtained from coniferous trees and consists mainly of diterpenoid resin acids. Most rosin used in technical products is chemically modified. In the common modification of rosin with maleic anhydride, the major product formed is maleopimaric acid (MPA). MPA was identified in experimental sensitization studies as a potent contact allergen. MPA is also formed when rosin is modified with fumaric acid at high temperature and with prolonged heating. The amounts of MPA in technical quality rosins modified with maleic anhydride or fumaric acid might be enough to sensitize individuals handling these rosins. The major product of the modification of rosin with fumaric acid, fumaropimaric acid (FPA), did not elicit any reactions in the animals tested. In another common rosin modification, glycerol esterification, the major product formed was identified as glyceryl triabietate (GTA). In an experimental sensitization study none of the animals reacted to GTA. However, a minor product formed, glyceryl 1-monoabietate (GMA) showed sensitizing capacity. The presence of new contact allergens due to the modification, together with remaining unmodified material, contributes to the risk of developing allergy from contact with these types of rosin. A new main contact allergen in unmodified rosin was identified; 13,14(beta)-epoxyabietic acid. The allergenicity of this epoxide was comparable to that of an earlier identified rosin allergen, 15-hydroperoxyabietic acid (15-HPA). The allergens were detected as their methyl esters. Experimental sensitization and cross-reactivity of oxidation products of resin acids were studied. A pattern of cross-reactivity was observed which indicates that the hydroperoxide of abietic acid (15-HPA) may react to form a complete antigen via two different routes. One route seems to be via the formation of epoxides which then react with skin protein to form the complete antigen, and the other, via radical formation due to cleavage of the peroxide bond. The radical formed may then react with skin protein, so producing the complete antigen. Few other studies have shown results indicating the formation of several antigens from one hapten.

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改性松香和未改性松香中的致敏成分。化学特性和致敏活性的研究。
Gäfvert, E. 1994。改性松香和未改性松香中的致敏成分。化学特性和致敏活性的研究。Acta Dermato-Venereologica。增刊》184。36页。乌普萨拉。未经改性的松香(松香)是众所周知的接触性过敏(延迟型超敏反应)的原因。松香是从针叶树中提取的,主要由二萜树脂酸组成。大多数用于技术产品的松香都经过了化学改性。用马来酸酐对松香进行改性,生成的主要产物是马来海松酸。在实验性致敏研究中,MPA被确定为一种强效的接触性过敏原。用富马酸对松香进行高温、长时间加热改性也可形成MPA。用马来酸酐或富马酸改性的技术质量松香中MPA的含量可能足以使处理这些松香的个体敏感。用富马酸修饰松香的主要产物富马海马酸(FPA)在实验动物中没有引起任何反应。在另一种常见的松香改性,甘油酯化,形成的主要产品被确定为甘油三酯(GTA)。在一项实验性致敏研究中,没有动物对GTA有反应。然而,形成的一种次要产物,甘油1-单枞酸酯(GMA)显示出增敏能力。由于改性而产生的新的接触性过敏原,以及剩余的未改性材料,增加了接触这些类型松香产生过敏的风险。在未改性松香中鉴定出一种新的主要接触过敏原;13、14(β)-epoxyabietic酸。这种环氧化物的致敏性与早期鉴定的松香过敏原15-氢过氧枞酸(15-HPA)相当。过敏原检测为它们的甲酯。研究了树脂酸氧化产物的增敏性和交叉反应性。观察到交叉反应性的模式,这表明氢过氧化氢枞酸(15-HPA)可以通过两个不同的途径反应形成一个完整的抗原。一种途径似乎是通过形成环氧化物,然后与皮肤蛋白反应形成完整的抗原,另一种途径是由于过氧化物键的裂解而形成自由基。形成的自由基可以与皮肤蛋白反应,从而产生完整的抗原。很少有其他研究表明,一个半抗原可以形成几个抗原。
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