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C3bot Peptides as Drugs for the Treatment of Traumatic or Degenerative Neuronal Injury


21.12.2011 | Ref.Nr. 08167
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Life Science › Pharma&Biotech

Figure : Neurocyte Picture: Höltje et al. 2009Background
Peptide fragments of the C3 exoenzyme of Clostridium botulinum have been found to have neuritogenic effects on neurons as well as regenerative proper-ties in an animal model (mouse). The peptides represent promising drug candidates for the treatment of neurodegenerative disorders such as Morbus Alzheimer, Parkinson, Huntington chorea but also for spinal cord injury and traumatic brain injury.enic effects on neurons as well as regenerative properties in an animal model (mouse).

Technology
We offer neuron-specific short peptides for the treatment of neurodegene-rative disorders. Whereas a 26mer peptide stimulates both, dendritic and axonal growth, a 15mer peptide selectively promotes axonal growth. Both, the 15mer and the 26mer peptide trigger a strong transient activation of RhoA which mimics the physiological conditions of RhoA activation / inactivation cycles.
These properties make the peptides suitable for repeated administration and long term treatments. As the peptides only act on neurons and not on microglia or astrocytes, there is no risk for neuronal inflammation or glia scar formation.

 

IP Rights
PCT application in 2010
National applications in USA/Europe in 2011

Patent Owner
Charité – Universitätsmedizin Berlin
Hannover Medical School

Application Area:
Drug candidates for the treatment of neurodegenerative disorders
Development Stage: In vitro / in vivo
Schlagworte: drug candi-date, Huntington cho-rea, Morbus Alzheimer, neurodegenerative disorders, Neuron-specific peptides, spinal cord injury, traumatic brain injury,
Weitere Kategorien: Life Science, Pharma & Biotech
Bild des Benutzers Dr. Janin Hofmann
Licensing Manager: Dr. Janin Hofmann
T +49 30 2125 4828
F +49 30 2125 4822
janin.hofmann@ipal.de
Benefits:
  • Physiological acting neuritogenic drug – small size and effective in nanomolar concentrations
  • Act neuron-specific -> reduced risk for neuronal inflammation or glia scar formation
  • Short peptides with low antigenicity and good kinetics
  • Broad application areas: Spinal cord injury, traumatic brain injury, Morbus Alzheimer, Parkinson, Huntington Chorea, etc.
  • In vivo data on spinal cord injury model show regenerative properties