Investigations on the expression and relevance of nerve growth factor in dogs with atopic dermatitis

T. Olivry, P. Bizikova
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引用次数: 1

Abstract

Introduction: Human atopic dermatitis (AD) keratinocytes overexpress nerve growth factor (NGF). Its inhibition, or that of its receptor, reduces itch in a mouse model of AD. In this study, we evaluated the expression of NGF in canine AD and assessed the effect of a caninized anti-NGF monoclonal antibody to delay flares of itch in dogs with natural AD. Methods: We used archived frozen skin biopsies from 6 house dust mite–sensitized atopic dogs after allergen challenge, 4 dogs with spontaneous AD and 1 dog with normal skin. The expression of NGF was evaluated by immunofluorescence. We also conducted a pilot crossover trial with 8 dogs with glucocorticoid-responsive AD. In both phases, the dogs were first treated for 28 days with oral prednisolone at 0.5 mg/kg/d. On the first day of the first phase, they received a saline subcutaneous injection, while on that of the second phase, they were injected with 0.2 mg/kg once of the caninized anti-dog NGF ranevetmab. The primary outcome measure was the time-to-flare, defined as the number of days between that of the last prednisolone administration and the day when the pruritus reached a score of at least 5.5/10, or 8 weeks, whichever came first. Results: In normal canine skin, the highest intensity of NGF staining was in stratum granulosum keratinocytes. After allergen challenge and in atopic canine skin, the NGF expression also extended downward to the upper stratum spinosum. In the pilot trial, the time-to-flare after prednisolone cessation was not significantly different between saline and ranevetmab-treated dogs. Discussion: While NGF is overexpressed in the atopic canine epidermis and after allergen challenge in sensitized dogs, the anti-NGF antibody ranevetmab did not delay pruritus flares after the discontinuation of prednisolone. Further studies are needed to assess if NGF is a relevant contributor for canine atopic itch.
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神经生长因子在犬特应性皮炎中的表达及相关性研究
人特应性皮炎(AD)角化细胞过度表达神经生长因子(NGF)。它的抑制作用,或其受体的抑制作用,减少了阿尔茨海默病小鼠模型中的瘙痒。在这项研究中,我们评估了NGF在犬AD中的表达,并评估了犬化抗NGF单克隆抗体对延缓天然AD犬瘙痒发作的作用。方法:对6只屋尘螨致敏的特应性犬、4只自发性AD犬和1只正常皮肤犬的皮肤进行冷冻活检。免疫荧光法检测NGF的表达。我们还对8只患有糖皮质激素反应性AD的狗进行了一项先导交叉试验。在这两个阶段,狗首先以0.5 mg/kg/d的剂量口服强的松龙治疗28天。第一期第一天皮下注射生理盐水,第二期第一天注射一次犬化抗犬NGF ranevetmab 0.2 mg/kg。主要结局指标是发作时间,定义为从最后一次泼尼松龙给药到瘙痒达到至少5.5/10分或8周的天数,以先到者为准。结果:正常犬皮肤颗粒层角化细胞中NGF染色强度最高。在致敏原刺激和犬的特应性皮肤中,NGF的表达也向下延伸至脊柱上层。在试点试验中,泼尼松龙停止后的发作时间在生理盐水和拉尼韦单抗治疗的狗之间没有显着差异。讨论:虽然NGF在特应性犬表皮和致敏犬的过敏原攻击后过表达,但抗NGF抗体拉尼韦单抗并没有延迟泼尼松龙停药后的瘙痒发作。需要进一步的研究来评估NGF是否是犬特应性瘙痒的相关因素。
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