How to differentiate induced pluripotent stem cells into sensory neurons for disease modelling: a functional assessment

诱导多能干细胞 感觉系统 神经科学 重编程 背根神经节 伤害感受器 生物 干细胞 定向微分 感觉神经元 再生医学 电池类型 伤害 细胞 胚胎干细胞 细胞生物学 基因 生物化学 受体 遗传学
作者
Anil Kumar Kalia,Corinna Rösseler,Rafael Granja-Vazquez,Ayesha Ahmad,Joseph J. Pancrazio,Anika Neureiter,Mei Zhang,Daniel Sauter,Irina Vetter,Åsa Andersson,Gregory Dussor,Theodore J. Price,Benedict J. Kolber,Vincent Truong,Patrick Walsh,Angelika Lampert
出处
期刊:Stem Cell Research & Therapy [BioMed Central]
卷期号:15 (1) 被引量:14
标识
DOI:10.1186/s13287-024-03696-2
摘要

Abstract Background Human induced pluripotent stem cell (iPSC)-derived peripheral sensory neurons present a valuable tool to model human diseases and are a source for applications in drug discovery and regenerative medicine. Clinically, peripheral sensory neuropathies can result in maladies ranging from a complete loss of pain to severe painful neuropathic disorders. Sensory neurons are located in the dorsal root ganglion and are comprised of functionally diverse neuronal types. Low efficiency, reproducibility concerns, variations arising due to genetic factors and time needed to generate functionally mature neuronal populations from iPSCs remain key challenges to study human nociception in vitro. Here, we report a detailed functional characterization of iPSC-derived sensory neurons with an accelerated differentiation protocol (“Anatomic” protocol) compared to the most commonly used small molecule approach (“Chambers” protocol). Anatomic’s commercially available RealDRG™ were further characterized for both functional and expression phenotyping of key nociceptor markers. Methods Multiple iPSC clones derived from different reprogramming methods, genetics, age, and somatic cell sources were used to generate sensory neurons. Manual patch clamp was used to functionally characterize both control and patient-derived neurons. High throughput techniques were further used to demonstrate that RealDRGs™ derived from the Anatomic protocol are amenable to high throughput technologies for disease modelling. Results The Anatomic protocol rendered a purer culture without the use of mitomycin C to suppress non-neuronal outgrowth, while Chambers differentiations yielded a mix of cell types. Chambers protocol results in predominantly tonic firing when compared to Anatomic protocol. Patient-derived nociceptors displayed higher frequency firing compared to control subject with both, Chambers and Anatomic differentiation approaches, underlining their potential use for clinical phenotyping as a disease-in-a-dish model. RealDRG™ sensory neurons show heterogeneity of nociceptive markers indicating that the cells may be useful as a humanized model system for translational studies. Conclusions We validated the efficiency of two differentiation protocols and their potential application for functional assessment and thus understanding the disease mechanisms from patients suffering from pain disorders. We propose that both differentiation methods can be further exploited for understanding mechanisms and development of novel treatments in pain disorders.

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