The microalga Volvox carteri as a cell supportive building block for tissue engineering

Mathilde STRICHER, Pascale Vigneron, Frédéric Delbecq, Claude-Olivier Sarde, Christophe Egles
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Abstract

Abstract Background V. carteri f. nagariensis constitutes, in its most simplified form, a cellularized spheroid built around and stabilised by a form of primitive extracellular matrix (ECM). Methods Based on its structure and its ability to support surface cell adhesion most likely induced by the composition of its algal ECM, we have developed a modular approach to soft tissue engineering by compact-stacking of V. carteri –based living building blocks. Results A primary biocompatibility assessment demonstrated the algal suspension cytocompatibility, its histogenesis promoting properties, and that it did not induce an inflammatory response in vitro . These results allowed us to consider the use of such algal suspension for soft tissue augmentation and to initiate the study of its in vivo biocompatibility. V. carteri exhibited cellular fate-directing properties, causing fibroblasts to take on an alkaline phosphatase + stem-cell-like phenotype and both human adipose-derived stem cells and mouse embryonic stem cells to differentiate into preadipocytes to adipocytes. The ability of V. carteri to support histogenesis and adipogenesis was also observed in vivo by subcutaneous tissue augmentation of athymic mice, highlighting the potential of V. carteri to support or influence tissue regeneration. Conclusions Our conclusion present for the first time V. carteri as an innovative and inspiring biomaterial for tissue engineering and soft tissue regeneration. Its strategies in terms of shape, structure and composition can be central in the design of a new generation of bio-inspired heterogeneous biomaterials recapitulating more appropriately the complexity of the body tissues when guiding their regeneration.
微藻作为组织工程的细胞支持构件
在其最简化的形式中,narariensis构成一个围绕原始细胞外基质(ECM)构建并稳定的细胞化球体。方法基于其结构和支持表面细胞粘附的能力(很可能是由其藻类ECM的组成引起的),我们开发了一种模块化方法,通过紧凑堆叠基于V. carteri的活构建块来实现软组织工程。结果初步生物相容性评价表明,藻悬液具有细胞相容性和促进组织发生的特性,且在体外不引起炎症反应。这些结果使我们可以考虑使用这种藻类悬浮液进行软组织增强,并开始研究其体内生物相容性。V. carteri表现出细胞命运导向特性,使成纤维细胞呈现碱性磷酸酶+干细胞样表型,使人脂肪源性干细胞和小鼠胚胎干细胞分化为前脂肪细胞到脂肪细胞。通过对胸腺发育不全的小鼠进行皮下组织增强实验,也观察到牛角弧菌支持组织发生和脂肪形成的能力,强调了牛角弧菌支持或影响组织再生的潜力。结论本研究结果首次揭示了V. carteri在组织工程和软组织再生方面是一种具有创新意义的生物材料。它在形状、结构和组成方面的策略可以成为新一代生物启发异质生物材料设计的核心,在指导其再生时更恰当地概括了身体组织的复杂性。
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