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Merck
  • Stem cell differentiation with consistent lineage commitment induced by a flash of ultrafast-laser activation in vitro and in vivo.

Stem cell differentiation with consistent lineage commitment induced by a flash of ultrafast-laser activation in vitro and in vivo.

Cell reports (2022-03-10)
Wanyi Tang, Haipeng Wang, Xiaohui Zhao, Shiyue Liu, Siu Kai Kong, Aaron Ho, Tunan Chen, Hua Feng, Hao He
ABSTRACT

Recent technological advancements on stem cell differentiation induction have been making great progress in stem cell research, regenerative medicine, and therapeutic applications. However, the risk of off-target differentiation limits the wide application of stem cell therapy strategies. Here, we report a non-invasive all-optical strategy to induce stem cell differentiation in vitro and in vivo that activates individual target stem cells in situ by delivering a transient 100-ms irradiation of a tightly focused femtosecond laser to a submicron cytoplasmic region of primary adipose-derived stem cells (ADSCs). The ADSCs differentiate to osteoblasts with stable lineage commitment that cannot further transdifferentiate because of simultaneous initiation of multiple signaling pathways through specific Ca2+ kinetic patterns. This method can work in vivo to direct mouse cerebellar granule neuron progenitors to granule neurons in intact mouse cerebellums through the skull. Hence, this optical method without any genetic manipulations or exogenous biomaterials holds promising potential in biomedical research and cell-based therapies.

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Roche
DNasi I, grade II, from bovine pancreas
Sigma-Aldrich
Collagenasi, for general use, Type I, ≥125 CDU/mg solid
Sigma-Aldrich
TGF-β RI Kinase Inhibitor VI, SB431542, InSolution, ≥97%
Sigma-Aldrich
FK-506 monohydrate, ≥98% (HPLC)