Long term study of deoxyribozyme administration to XT-1 mRNA promotes corticospinal tract regeneration and improves behavioral outcome after spinal cord injury

Brigitte Koenig, Daniel Pape, Owen Chao, Jordana Bauer, Barbara Grimpe

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

Spinal cord injury (SCI) affects approximately 3 million people around the world, who are desperately awaiting treatment. The pressing need for the development of therapeutics has spurred medical research for decades. To respond to this pressing need, our group developed a potential therapeutic to reduce the presence of proteoglycans at the injury site after acutely traumatizing the spinal cord of rats. With the aid of a DNA enzyme against the mRNA of xylosyltransferase-1 (DNAXT-1as) we adjourn the glycosylation and prevent the assembly of the proteoglycan core protein into the extracellular matrix. Hence, endogenous repair is strengthened due to the allocation of amore growth permissive environment around the lesion site. Here,we present data on a long termstudy of animalswith a dorsal hemisection treatedwith DNAXT-1as, DNAXT-1mb (control DNA enzyme) or PBS via osmoticminipumps. After successful digestion of the XT-1 mRNA shown by qPCRwe observed an overall behavioral improvement of DNAXT-1as treated rats at 8, 10 and 14weeks after insult to the spine compared to the control animals. This is accompanied by the growth of the cortical spinal tract (CST) inDNAXT-1as treated animals after a 19 week survival period. Furthermore, after evaluating the lesion size tissue-protective effects in the DNAXT-1as treated animals compared to DNAXT-1mb and PBS treated rats are revealed. The results yield new insights into the regeneration processes and provide confirmation to involve DNA enzyme administration in future therapeutic strategies to medicate SCI.

Original languageEnglish (US)
Pages (from-to)51-58
Number of pages8
JournalExperimental Neurology
Volume276
DOIs
StatePublished - Feb 1 2016
Externally publishedYes

Bibliographical note

Funding Information:
This work was supported by the German Research Foundation ( DFG ) ( GR 1772/3-1 ) (BG) and the DFG -Research Training Group 1033 (BK).

Publisher Copyright:
© 2015 Elsevier Inc.

Keywords

  • Chondroitin sulfate
  • DNA enzyme
  • Neurotherapeutic
  • Proteoglycan
  • Spinal cord injury

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