McNairn Adrian J, Doucet Yanne, Demaude Julien, Brusadelli Marion, Gordon Christopher B, Uribe-Rivera Armando, Lambert Paul F, Bouez Charbel, Breton Lionel, Guasch Géraldine
Division of Developmental Biology, Cincinnati Children's Hospital Medical Center, 3333 Burnet Avenue, Cincinnati, OH 45229, USA.
BMC Dermatol. 2013 Jan 23;13:2. doi: 10.1186/1471-5945-13-2.
Sebaceous glands are components of the skin essential for its normal lubrication by the production of sebum. This contributes to skin health and more importantly is crucial for the skin barrier function. A mechanistic understanding of sebaceous gland cells growth and differentiation has lagged behind that for keratinocytes, partly because of a lack of an in vitro model that can be used for experimental manipulation.
We have developed an in vitro culture model to isolate and grow primary human sebocytes without transformation that display functional characteristics of sebocytes. We used this novel method to probe the effect of Transforming Growth Factor β (TGFβ) signaling on sebocyte differentiation, by examining the expression of genes involved in lipogenesis upon treatment with TGFβ1. We also repressed TGFβ signaling through knockdown of the TGFβ Receptor II to address if the effect of TGFβ activation is mediated via canonical Smad signal transduction.
We find that activation of the TGFβ signaling pathway is necessary and sufficient for maintaining sebocytes in an undifferentiated state. The presence of TGFβ ligand triggered decreased expression in genes required for the production of characteristics sebaceous lipids and for sebocyte differentiation such as FADS2 and PPARγ, thereby decreasing lipid accumulation through the TGFβ RII-Smad2 dependent pathway.
TGFβ signaling plays an essential role in sebaceous gland regulation by maintaining sebocytes in an undifferentiated state. This data was generated using a novel method for human sebocyte culture, which is likely to prove generally useful in investigations of sebaceous gland growth and differentiation. These findings open a new paradigm in human skin biology with important implications for skin therapies.
皮脂腺是皮肤的组成部分,通过分泌皮脂对皮肤进行正常润滑。这有助于皮肤健康,更重要的是对皮肤屏障功能至关重要。对皮脂腺细胞生长和分化的机制理解落后于角质形成细胞,部分原因是缺乏可用于实验操作的体外模型。
我们开发了一种体外培养模型,用于分离和培养未转化的原代人皮脂腺细胞,这些细胞表现出皮脂腺细胞的功能特征。我们使用这种新方法,通过检测用转化生长因子β1(TGFβ1)处理后参与脂肪生成的基因表达,来探究TGFβ信号对皮脂腺细胞分化的影响。我们还通过敲低TGFβ受体II来抑制TGFβ信号,以研究TGFβ激活的作用是否通过经典的Smad信号转导介导。
我们发现,TGFβ信号通路的激活对于维持皮脂腺细胞的未分化状态是必要且充分的。TGFβ配体的存在导致参与产生特征性皮脂和皮脂腺细胞分化的基因(如FADS2和PPARγ)表达降低,从而通过TGFβ RII-Smad2依赖性途径减少脂质积累。
TGFβ信号通过维持皮脂腺细胞的未分化状态在皮脂腺调节中起重要作用。这些数据是使用一种新的人皮脂腺细胞培养方法生成的,这可能在皮脂腺生长和分化的研究中普遍有用。这些发现为人类皮肤生物学开辟了一个新的范式,对皮肤治疗具有重要意义。
