Department of Biomedical Engineering, Tufts University, Medford, MA 02155, USA.
Biomaterials. 2010 May;31(14):3920-9. doi: 10.1016/j.biomaterials.2010.01.118. Epub 2010 Feb 24.
Epithelial-stromal interactions play a crucial role in normal embryonic development and carcinogenesis of the human breast while the underlying mechanisms of these events remain poorly understood. To address this issue, we constructed a physiologically relevant, three-dimensional (3D) culture surrogate of complex human breast tissue that included a tri-culture system made up of human mammary epithelial cells (MCF10A), human fibroblasts and adipocytes, i.e., the two dominant breast stromal cell types, in a Matrigel/collagen mixture on porous silk protein scaffolds. The presence of stromal cells inhibited MCF10A cell proliferation and induced both alveolar and ductal morphogenesis and enhanced casein expression. In contrast to the immature polarity exhibited by co-cultures with either fibroblasts or adipocytes, the alveolar structures formed by the tri-cultures exhibited proper polarity similar to that observed in breast tissue in vivo. Only alveolar structures with reverted polarity were observed in MCF10A monocultures. Consistent with their phenotypic appearance, more functional differentiation of epithelial cells was also observed in the tri-cultures, where casein alpha- and -beta mRNA expression was significantly increased. This in vitro tri-culture breast tissue system sustained on silk scaffold effectively represents a more physiologically relevant 3D microenvironment for mammary epithelial cells and stromal cells than either co-cultures or monocultures. This experimental model provides an important first step for bioengineering an informative human breast tissue system, with which to study normal breast morphogenesis and neoplastic transformation.
上皮-间质相互作用在正常胚胎发育和人类乳腺癌的发生中起着至关重要的作用,而这些事件的潜在机制仍知之甚少。为了解决这个问题,我们构建了一种生理相关的、三维(3D)的复杂人类乳腺组织培养替代物,其中包括由人乳腺上皮细胞(MCF10A)、人成纤维细胞和脂肪细胞组成的三培养系统,即两种主要的乳腺基质细胞类型,在 Matrigel/胶原混合物中在多孔丝蛋白支架上。基质细胞的存在抑制了 MCF10A 细胞的增殖,并诱导了肺泡和导管形态发生,并增强了酪蛋白的表达。与与成纤维细胞或脂肪细胞共培养所表现出的不成熟极性相反,三培养物形成的肺泡结构表现出与体内乳腺组织相似的适当极性。仅在 MCF10A 单核培养物中观察到反转极性的肺泡结构。与它们的表型表现一致,在三培养物中也观察到上皮细胞的更多功能分化,其中酪蛋白 alpha-和 -beta mRNA 的表达显著增加。这种在丝支架上维持的体外三培养乳腺组织系统为乳腺上皮细胞和基质细胞提供了比共培养或单核培养更具生理相关性的 3D 微环境。该实验模型为构建有信息的人类乳腺组织系统提供了重要的第一步,可用于研究正常乳腺形态发生和肿瘤转化。