Claudia J Laskowski

Overview

Explore the profile of Claudia J Laskowski including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 5

Citations 601

Followers 0

Related Specialties

Neurology

Biology

Science

Top 10 Co-Authors

Frank Bradke

Andrea Tedeschi

Sebastian Dupraz

Kevin C Flynn

Tuan Nguyen

Marc Beyer

Thomas Ulas

Antonio Schmandke

Joachim L Schultze

Sina Stern

Published In

Neuron

Science

Exp Neurol

Nat Commun

Affiliations

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Recent Articles

ADF/Cofilin-Mediated Actin Turnover Promotes Axon Regeneration in the Adult CNS

Tedeschi A, Dupraz S, Curcio M, Laskowski C, Schaffran B, Flynn K, et al.

Neuron . 2019 Aug; 103(6):1073-1085.e6. PMID: 31400829

Injured axons fail to regenerate in the adult CNS, which contrasts with their vigorous growth during embryonic development. We explored the potential of re-initiating axon extension after injury by reactivating...

The Calcium Channel Subunit Alpha2delta2 Suppresses Axon Regeneration in the Adult CNS

Tedeschi A, Dupraz S, Laskowski C, Xue J, Ulas T, Beyer M, et al.

Neuron . 2016 Oct; 92(2):419-434. PMID: 27720483

Injuries to the adult CNS often result in permanent disabilities because neurons lose the ability to regenerate their axon during development. Here, whole transcriptome sequencing and bioinformatics analysis followed by...

PCAF-dependent epigenetic changes promote axonal regeneration in the central nervous system

Puttagunta R, Tedeschi A, Soria M, Hervera A, Lindner R, Rathore K, et al.

Nat Commun . 2014 Apr; 5:3527. PMID: 24686445

Axonal regenerative failure is a major cause of neurological impairment following central nervous system (CNS) but not peripheral nervous system (PNS) injury. Notably, PNS injury triggers a coordinated regenerative gene...

In vivo imaging: a dynamic imaging approach to study spinal cord regeneration

Laskowski C, Bradke F

Exp Neurol . 2012 Jul; 242:11-7. PMID: 22836145

Upon spinal cord injury, severed axons and the surrounding tissue undergo a series of pathological changes, including retraction of proximal axon ends, degeneration of distal axon ends and formation of...

Microtubule stabilization reduces scarring and causes axon regeneration after spinal cord injury

Hellal F, Hurtado A, Ruschel J, Flynn K, Laskowski C, Umlauf M, et al.

Science . 2011 Jan; 331(6019):928-31. PMID: 21273450

Hypertrophic scarring and poor intrinsic axon growth capacity constitute major obstacles for spinal cord repair. These processes are tightly regulated by microtubule dynamics. Here, moderate microtubule stabilization decreased scar formation...