Wolkenstein P, Charue D, Laurent P, Revuz J, Roujeau J C, Bagot M
Department of Dermatology, Hôpital Henri-Mondor, Créteil, France.
Arch Dermatol. 1995 May;131(5):544-51.
Cutaneous adverse drug reactions (ADRs) have been hypothesized to have a metabolic basis. Our aim was to identify detoxification defects involved in toxic epidermal necrolysis and other severe cutaneous ADRs. Lymphoid cells of 33 patients with cutaneous ADRs were challenged with reactive metabolites generated from drugs by a microsomal oxidation system. To be precise in the detoxification defect involved in sulfonamide and anticonvulsant reactions, we challenged lymphoid cells from 11 patients (seven patients with sulfonamide ADRs and four patients with anticonvulsants ADRs) to menadione and formaldehyde. Menadione induces toxic effects by oxygen species; formaldehyde is detoxified by aldehyde dehydrogenase, oxidase, and reductase.
When the culprit drug was a sulfonamide or an anticonvulsant (used in 13 and 13 patients, respectively), the toxic effects of culprit drug-reactive metabolites toward patients' lymphoid cells were higher than toward controls'. First-degree relatives of four patients with sulfonamide- and phenobarbital-induced toxic epidermal necrolysis were also tested. In each family, a relative was more susceptible to culprit drug-reactive metabolites than were controls. After incubation with menadione, or formaldehyde, no difference in toxicity was found between patients' and controls' lymphoid cells.
Toxic epidermal necrolysis and other severe cutaneous ADRs to sulfonamides and anticonvulsant drugs may be linked to a highly specific defect in the detoxification of culprit drug-reactive metabolites. Our results suggest that this defect is constitutional and inherited and does not involve oxygen free radicals and/or aldehyde detoxification pathways.
皮肤药物不良反应(ADR)被认为有代谢基础。我们的目的是确定与中毒性表皮坏死松解症及其他严重皮肤ADR相关的解毒缺陷。用微粒体氧化系统从药物产生的反应性代谢产物对33例皮肤ADR患者的淋巴细胞进行攻击。为精确确定与磺胺类药物及抗惊厥药物反应相关的解毒缺陷,我们用甲萘醌和甲醛对11例患者(7例磺胺类药物ADR患者和4例抗惊厥药物ADR患者)的淋巴细胞进行攻击。甲萘醌通过氧自由基诱导毒性作用;甲醛由醛脱氢酶、氧化酶和还原酶解毒。
当致病药物为磺胺类药物或抗惊厥药物时(分别用于13例和13例患者),致病药物反应性代谢产物对患者淋巴细胞的毒性作用高于对对照淋巴细胞的毒性作用。还对4例磺胺类药物和苯巴比妥所致中毒性表皮坏死松解症患者的一级亲属进行了检测。在每个家庭中,一名亲属比对照更易对致病药物反应性代谢产物敏感。在用甲萘醌或甲醛孵育后,患者和对照的淋巴细胞在毒性方面未发现差异。
中毒性表皮坏死松解症及其他对磺胺类药物和抗惊厥药物的严重皮肤ADR可能与致病药物反应性代谢产物解毒的高度特异性缺陷有关。我们的结果表明,这种缺陷是先天性的且可遗传,不涉及氧自由基和/或醛解毒途径。
