Using a rat spinal ischemia model, we have shown that specific periods of transient spinal ischemia lead to a selective degeneration of small and medium-sized inhibitory neurons in lumbosacral segments and the development of prominent and permanent spasticity and rigidity. Similar development of spasticity and rigidity in patients undergoing thoracoabdominal aortic aneurysm repair or after traumatic spinal injury had been described. While the clinical signs of spasticity and rigidity can be effectively controlled by systemic or spinal treatment with several pharmacological agents including baclofen (GABA B receptor agonist) or tizadinine (alpha2 agonist), significant side effects and complications associated with chronic intrathecal cannulations calls for the development of new and more effective therapies. In recent years, significant attention has been focused on a potential use of adeno-or lenti-viral vectors with the goal to upregulate therapeutic genes in specific areas of the brain or spinal cord. These initial studies clearly show that intrastriatal injections of adeno-associated virus encoding GAD65 gene is effective in suppressing parkinsonian dyskinesias and is associated with an increase in local GABA release. In the present studies, using an established rat model of ischemic spasticity and rigidity, we will examine a possible therapeutic potential of spinal lentivirus-mediated GAD65 gene delivery in order to produce local upregulation of GABA synthesis and ameliorate spasticity and rigidity. The effect of local GAD65 gene upregulation in animals with developed spasticity and rigidity will be accomplished and assessed by i) direct spinal parenchymal lentivirus delivery or spinal grafting of rat neuronal precursors genetically modified to produce GABA, ii) electrophysiological/functional indices of spasticity and rigidity, iii) corresponding spinal parenchyma! GABA release, and, iv) histological analysis of transgene expression. From a practical standpoint, these studies will systematically address issues which we believe have both basic and clinical importance. Thus the ability to selectively increase GABA synthesis in previously ischemic, GABA neuron-depleted segments, may prove to be of particular significance in developing novel therapeutic modalities for managing chronic spasticity and rigidity in patients after ischemic or traumatic spinal injury.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS051644-04
Application #
7599186
Study Section
Clinical Neuroplasticity and Neurotransmitters Study Section (CNNT)
Program Officer
Kleitman, Naomi
Project Start
2006-05-01
Project End
2011-04-30
Budget Start
2009-05-01
Budget End
2010-04-30
Support Year
4
Fiscal Year
2009
Total Cost
$337,544
Indirect Cost
Name
University of California San Diego
Department
Anesthesiology
Type
Schools of Medicine
DUNS #
804355790
City
La Jolla
State
CA
Country
United States
Zip Code
92093
Periši?, Ognjen; Schlick, Tamar (2017) Dependence of the Linker Histone and Chromatin Condensation on the Nucleosome Environment. J Phys Chem B 121:7823-7832
Corleto, Jose A; Bravo-Hernández, Mariana; Kamizato, Kota et al. (2015) Thoracic 9 Spinal Transection-Induced Model of Muscle Spasticity in the Rat: A Systematic Electrophysiological and Histopathological Characterization. PLoS One 10:e0144642
Kupcova Skalnikova, Helena; Navarro, Roman; Marsala, Silvia et al. (2013) Signaling proteins in spinal parenchyma and dorsal root ganglion in rat with spinal injury-induced spasticity. J Proteomics 91:41-57
Navarro, Roman; Juhas, Stefan; Keshavarzi, Sassan et al. (2012) Chronic spinal compression model in minipigs: a systematic behavioral, qualitative, and quantitative neuropathological study. J Neurotrauma 29:499-513
Kakinohana, Osamu; Hefferan, Michael P; Miyanohara, Atsushi et al. (2012) Combinational spinal GAD65 gene delivery and systemic GABA-mimetic treatment for modulation of spasticity. PLoS One 7:e30561
Kakinohana, Osamu; Scadeng, Miriam; Corleto, Jose A et al. (2012) Development of AMPA receptor and GABA B receptor-sensitive spinal hyper-reflexia after spinal air embolism in rat: a systematic neurological, electrophysiological and qualitative histopathological study. Exp Neurol 237:26-35
Fuchigami, T; Kakinohana, O; Hefferan, M P et al. (2011) Potent suppression of stretch reflex activity after systemic or spinal delivery of tizanidine in rats with spinal ischemia-induced chronic spastic paraplegia. Neuroscience 194:160-9
Boulenguez, Pascale; Liabeuf, Sylvie; Bos, Remi et al. (2010) Down-regulation of the potassium-chloride cotransporter KCC2 contributes to spasticity after spinal cord injury. Nat Med 16:302-7
Oshiro, Masakatsu; Hefferan, Michael P; Kakinohana, Osamu et al. (2010) Suppression of stretch reflex activity after spinal or systemic treatment with AMPA receptor antagonist NGX424 in rats with developed baclofen tolerance. Br J Pharmacol 161:976-85
Usvald, Dusan; Vodicka, Peter; Hlucilova, Jana et al. (2010) Analysis of dosing regimen and reproducibility of intraspinal grafting of human spinal stem cells in immunosuppressed minipigs. Cell Transplant 19:1103-22

Showing the most recent 10 out of 16 publications