A Systems-Level Analysis of the Peripheral Nerve Intrinsic Axonal Growth Program

Vijayendran Chandran; Giovanni Coppola; Homaira Nawabi; Takao Omura; Revital Versano; Eric A. Huebner; Alice Zhang; Michael Costigan; Ajay Yekkirala; Lee Barrett; Armin Blesch; Izhak Michaelevski; Jeremy Davis-Turak; Fuying Gao; Peter Langfelder; Steve Horvath; Zhigang He; Larry Benowitz; Mike Fainzilber; Mark Tuszynski; Clifford J. Woolf; Daniel H. Geschwind

doi:10.1016/j.neuron.2016.01.034

A Systems-Level Analysis of the Peripheral Nerve Intrinsic Axonal Growth Program

Vijayendran Chandran
, Giovanni Coppola
, Homaira Nawabi
, Takao Omura
, Revital Versano
, Eric A. Huebner
, Alice Zhang
, Michael Costigan
, Ajay Yekkirala
, Lee Barrett
, Armin Blesch
, Izhak Michaelevski
, Jeremy Davis-Turak
, Fuying Gao
, Peter Langfelder
, Steve Horvath
, Zhigang He
, Larry Benowitz
, Mike Fainzilber
, Mark Tuszynski

Clifford J. Woolf, Daniel H. Geschwind

نتاج البحث: نشر في مجلة › مقالة › مراجعة النظراء

295 اقتباسات (Scopus)

ملخص

The regenerative capacity of the injured CNS in adult mammals is severely limited, yet axons in the peripheral nervous system (PNS) regrow, albeit to a limited extent, after injury. We reasoned that coordinate regulation of gene expression in injured neurons involving multiple pathways was central to PNS regenerative capacity. To provide a framework for revealing pathways involved in PNS axon regrowth after injury, we applied a comprehensive systems biology approach, starting with gene expression profiling of dorsal root ganglia (DRGs) combined with multi-level bioinformatic analyses and experimental validation of network predictions. We used this rubric to identify a drug that accelerates DRG neurite outgrowth in vitro and optic nerve outgrowth in vivo by inducing elements of the identified network. The work provides a functional genomics foundation for understanding neural repair and proof of the power of such approaches in tackling complex problems in nervous system biology.

اللغة الأصلية	الإنجليزيّة
الصفحات (من إلى)	956-970
عدد الصفحات	15
دورية	Neuron
مستوى الصوت	89
رقم الإصدار	5
المعرِّفات الرقمية للأشياء	https://doi.org/10.1016/j.neuron.2016.01.034
حالة النشر	نُشِر - 2 مارس 2016
منشور خارجيًا	نعم

الوصول إلى المستند

10.1016/j.neuron.2016.01.034

الملفات والروابط الأخرى

Link to publication in Scopus

قم بذكر هذا

Chandran, V., Coppola, G., Nawabi, H., Omura, T., Versano, R., Huebner, E. A., Zhang, A., Costigan, M., Yekkirala, A., Barrett, L., Blesch, A., Michaelevski, I., Davis-Turak, J., Gao, F., Langfelder, P., Horvath, S., He, Z., Benowitz, L., Fainzilber, M., ... Geschwind, D. H. (2016). A Systems-Level Analysis of the Peripheral Nerve Intrinsic Axonal Growth Program. Neuron, 89(5), 956-970. https://doi.org/10.1016/j.neuron.2016.01.034

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title = "A Systems-Level Analysis of the Peripheral Nerve Intrinsic Axonal Growth Program",

abstract = "The regenerative capacity of the injured CNS in adult mammals is severely limited, yet axons in the peripheral nervous system (PNS) regrow, albeit to a limited extent, after injury. We reasoned that coordinate regulation of gene expression in injured neurons involving multiple pathways was central to PNS regenerative capacity. To provide a framework for revealing pathways involved in PNS axon regrowth after injury, we applied a comprehensive systems biology approach, starting with gene expression profiling of dorsal root ganglia (DRGs) combined with multi-level bioinformatic analyses and experimental validation of network predictions. We used this rubric to identify a drug that accelerates DRG neurite outgrowth in vitro and optic nerve outgrowth in vivo by inducing elements of the identified network. The work provides a functional genomics foundation for understanding neural repair and proof of the power of such approaches in tackling complex problems in nervous system biology.",

author = "Vijayendran Chandran and Giovanni Coppola and Homaira Nawabi and Takao Omura and Revital Versano and Huebner, \{Eric A.\} and Alice Zhang and Michael Costigan and Ajay Yekkirala and Lee Barrett and Armin Blesch and Izhak Michaelevski and Jeremy Davis-Turak and Fuying Gao and Peter Langfelder and Steve Horvath and Zhigang He and Larry Benowitz and Mike Fainzilber and Mark Tuszynski and Woolf, \{Clifford J.\} and Geschwind, \{Daniel H.\}",

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Chandran, V, Coppola, G, Nawabi, H, Omura, T, Versano, R, Huebner, EA, Zhang, A, Costigan, M, Yekkirala, A, Barrett, L, Blesch, A, Michaelevski, I, Davis-Turak, J, Gao, F, Langfelder, P, Horvath, S, He, Z, Benowitz, L, Fainzilber, M, Tuszynski, M, Woolf, CJ & Geschwind, DH 2016, 'A Systems-Level Analysis of the Peripheral Nerve Intrinsic Axonal Growth Program', Neuron, المجلد 89, رقم 5, الصفحات 956-970. https://doi.org/10.1016/j.neuron.2016.01.034

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AU - Huebner, Eric A.

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AU - Gao, Fuying

AU - Langfelder, Peter

AU - Horvath, Steve

AU - He, Zhigang

AU - Benowitz, Larry

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AU - Woolf, Clifford J.

AU - Geschwind, Daniel H.

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AB - The regenerative capacity of the injured CNS in adult mammals is severely limited, yet axons in the peripheral nervous system (PNS) regrow, albeit to a limited extent, after injury. We reasoned that coordinate regulation of gene expression in injured neurons involving multiple pathways was central to PNS regenerative capacity. To provide a framework for revealing pathways involved in PNS axon regrowth after injury, we applied a comprehensive systems biology approach, starting with gene expression profiling of dorsal root ganglia (DRGs) combined with multi-level bioinformatic analyses and experimental validation of network predictions. We used this rubric to identify a drug that accelerates DRG neurite outgrowth in vitro and optic nerve outgrowth in vivo by inducing elements of the identified network. The work provides a functional genomics foundation for understanding neural repair and proof of the power of such approaches in tackling complex problems in nervous system biology.

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A Systems-Level Analysis of the Peripheral Nerve Intrinsic Axonal Growth Program

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