TY - JOUR
T1 - Therapeutic epilepsy research
T2 - From pharmacological rationale to focal adenosine augmentation
AU - Boison, Detlev
AU - Stewart, Kerry Ann
N1 - Funding Information:
The work of the authors is supported by grants R01NS058780 , R01NS061844 , R01MH083973 , R21NS057475-01 , and R21NS057538-01 from the National Institutes of Health (NIH) , from Citizens United in Research against Epilepsy (CURE) in collaboration with the Department of Defense (DoD) , and from the Legacy Hospital Foundations .
PY - 2009/12/15
Y1 - 2009/12/15
N2 - Epilepsy is a common seizure disorder affecting approximately 70 million people worldwide. Current pharmacotherapy is neuron-centered, frequently accompanied by intolerable side effects, and fails to be effective in about one third of patients. Therefore, new therapeutic concepts are needed. Recent research suggests an astrocytic basis of epilepsy, presenting the possibility of novel therapeutic targets. In particular, dysfunction of the astrocyte-controlled, endogenous, adenosine-based seizure control system of the brain is implicated in seizure generation. Thus, astrogliosis - a pathological hallmark of the epileptic brain - is associated with upregulation of the adenosine-removing enzyme adenosine kinase (ADK), resulting in focal adenosine deficiency. Both astrogliotic upregulation of ADK in epilepsy and transgenic overexpression of ADK are associated with seizures, and inhibition of ADK prevents seizures in a mouse model of pharmacoresistant epilepsy. These findings link adenosine deficiency with seizures and predict that adenosine augmentation therapies (AATs) will likely be effective in preventing seizures. Given the wide-spread systemic and central side effects of systemically administered AATs, focal AATs (i.e., limited to the astrogliotic lesion) are a necessity. This Commentary will discuss the pharmacological rationale for the development of focal AATs. Additionally, several AAT strategies will be discussed: (1) adenosine released from silk-based brain implants; (2) adenosine released from locally implanted encapsulated cells; (3) adenosine released from stem cell-derived brain implants; and (4) adenosine augmenting gene therapies. Finally, new developments and therapeutic challenges in using focal AATs for epilepsy therapy will critically be evaluated.
AB - Epilepsy is a common seizure disorder affecting approximately 70 million people worldwide. Current pharmacotherapy is neuron-centered, frequently accompanied by intolerable side effects, and fails to be effective in about one third of patients. Therefore, new therapeutic concepts are needed. Recent research suggests an astrocytic basis of epilepsy, presenting the possibility of novel therapeutic targets. In particular, dysfunction of the astrocyte-controlled, endogenous, adenosine-based seizure control system of the brain is implicated in seizure generation. Thus, astrogliosis - a pathological hallmark of the epileptic brain - is associated with upregulation of the adenosine-removing enzyme adenosine kinase (ADK), resulting in focal adenosine deficiency. Both astrogliotic upregulation of ADK in epilepsy and transgenic overexpression of ADK are associated with seizures, and inhibition of ADK prevents seizures in a mouse model of pharmacoresistant epilepsy. These findings link adenosine deficiency with seizures and predict that adenosine augmentation therapies (AATs) will likely be effective in preventing seizures. Given the wide-spread systemic and central side effects of systemically administered AATs, focal AATs (i.e., limited to the astrogliotic lesion) are a necessity. This Commentary will discuss the pharmacological rationale for the development of focal AATs. Additionally, several AAT strategies will be discussed: (1) adenosine released from silk-based brain implants; (2) adenosine released from locally implanted encapsulated cells; (3) adenosine released from stem cell-derived brain implants; and (4) adenosine augmenting gene therapies. Finally, new developments and therapeutic challenges in using focal AATs for epilepsy therapy will critically be evaluated.
KW - Adenosine
KW - Adenosine receptor
KW - Epilepsy
KW - Epileptogenesis
KW - Focal drug delivery
UR - http://www.scopus.com/inward/record.url?scp=70349984540&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=70349984540&partnerID=8YFLogxK
U2 - 10.1016/j.bcp.2009.08.005
DO - 10.1016/j.bcp.2009.08.005
M3 - Comment/debate
C2 - 19682439
AN - SCOPUS:70349984540
SN - 0006-2952
VL - 78
SP - 1428
EP - 1437
JO - Biochemical Pharmacology
JF - Biochemical Pharmacology
IS - 12
ER -