INSERM, U, Toulouse, France.
J Clin Invest. 2010 Mar;120(3):871-82. doi: 10.1172/JCI41440. Epub 2010 Feb 22.
The human epidermis serves 2 crucial barrier functions: it protects against water loss and prevents penetration of infectious agents and allergens. The physiology of the epidermis is maintained by a balance of protease and antiprotease activities, as illustrated by the rare genetic skin disease Netherton syndrome (NS), in which impaired inhibition of serine proteases causes severe skin erythema and scaling. Here, utilizing mass spectrometry, we have identified elastase 2 (ELA2), which we believe to be a new epidermal protease that is specifically expressed in the most differentiated layer of living human and mouse epidermis. ELA2 localized to keratohyalin granules, where it was found to directly participate in (pro-)filaggrin processing. Consistent with the observation that ELA2 was hyperactive in skin from NS patients, transgenic mice overexpressing ELA2 in the granular layer of the epidermis displayed abnormal (pro-)filaggrin processing and impaired lipid lamellae structure, which are both observed in NS patients. These anomalies led to dehydration, implicating ELA2 in the skin barrier defect seen in NS patients. Thus, our work identifies ELA2 as a major new epidermal protease involved in essential pathways for skin barrier function. These results highlight the importance of the control of epidermal protease activity in skin homeostasis and designate ELA2 as a major protease driving the pathogenesis of NS.
它可以防止水分流失,并防止传染性病原体和过敏原的渗透。表皮的生理学由蛋白酶和抗蛋白酶活性的平衡维持,罕见的遗传性皮肤病 Netherton 综合征(NS)就是一个例证,其中丝氨酸蛋白酶的抑制作用受损会导致严重的皮肤红斑和鳞屑。在这里,我们利用质谱法鉴定了弹性蛋白酶 2(ELA2),我们认为它是一种新的表皮蛋白酶,特异性表达于活人体和小鼠表皮的最分化层。ELA2 定位于角蛋白丝颗粒,在那里它被发现直接参与(原)角蛋白丝的加工。与 ELA2 在 NS 患者皮肤中过度活跃的观察结果一致,在表皮颗粒层中过表达 ELA2 的转基因小鼠显示出异常的(原)角蛋白丝加工和受损的脂质层结构,这在 NS 患者中都观察到。这些异常导致脱水,表明 ELA2 参与了 NS 患者的皮肤屏障缺陷。因此,我们的工作确定 ELA2 为参与皮肤屏障功能的重要途径的主要新表皮蛋白酶。这些结果强调了控制表皮蛋白酶活性在皮肤稳态中的重要性,并将 ELA2 指定为驱动 NS 发病机制的主要蛋白酶。