Engineered Bacteria-Based Living Materials for Biotherapeutic Applications

合成生物学 基因工程 生化工程 颠覆性技术 纳米技术 再生医学 生物技术 计算机科学 计算生物学 生物 工程类 干细胞 生物化学 基因 制造工程 材料科学 遗传学
作者
Rabia Omer,Muhammad Mohsin,Ali Mohsin,Bilal Sajid Mushtaq,Xumeng Huang,Meijin Guo,Yingping Zhuang,Jiaofang Huang
出处
期刊:Frontiers in Bioengineering and Biotechnology [Frontiers Media]
卷期号:10: 870675-870675 被引量:58
标识
DOI:10.3389/fbioe.2022.870675
摘要

Future advances in therapeutics demand the development of dynamic and intelligent living materials. The past static monofunctional materials shall be unable to meet the requirements of future medical development. Also, the demand for precision medicine has increased with the progressively developing human society. Therefore, engineered living materials (ELMs) are vitally important for biotherapeutic applications. These ELMs can be cells, microbes, biofilms, and spores, representing a new platform for treating intractable diseases. Synthetic biology plays a crucial role in the engineering of these living entities. Hence, in this review, the role of synthetic biology in designing and creating genetically engineered novel living materials, particularly bacteria, has been briefly summarized for diagnostic and targeted delivery. The main focus is to provide knowledge about the recent advances in engineered bacterial-based therapies, especially in the treatment of cancer, inflammatory bowel diseases, and infection. Microorganisms, particularly probiotics, have been engineered for synthetic living therapies. Furthermore, these programmable bacteria are designed to sense input signals and respond to disease-changing environments with multipronged therapeutic outputs. These ELMs will open a new path for the synthesis of regenerative medicines as they release therapeutics that provide in situ drug delivery with lower systemic effects. In last, the challenges being faced in this field and the future directions requiring breakthroughs have been discussed. Conclusively, the intent is to present the recent advances in research and biomedical applications of engineered bacteria-based therapies during the last 5 years, as a novel treatment for uncontrollable diseases.
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