Neuroprotection by the Inhibition of Apoptosis

George S Robertson; Stephen J Crocker; Donald W Nicholson; Jörg B Schulz

doi:10.1111/j.1750-3639.2000.tb00262.x

. 2006 Apr 5;10(2):283–292. doi: 10.1111/j.1750-3639.2000.tb00262.x

Neuroprotection by the Inhibition of Apoptosis

George S Robertson ^1,^2,^✉, Stephen J Crocker ², Donald W Nicholson ¹, Jörg B Schulz ³

PMCID: PMC8098500 PMID: 10764048

Abstract

Accumulating evidence strongly suggests that apoptosis contributes to neuronal cell death in a variety of neurodegenerative contexts. Activation of the cysteine protease caspase‐3 appears to be a key event in the execution of apoptosis in the central nervous system (CNS). As a result, mice null for caspase‐3 display considerable neuronal expansion usually resulting in death by the second week of life. At present, 14 caspase family members have been identified and subdivided into three subgroups on the basis of preference for specific tetrapeptide motifs using a positional scanning combinatorial substrate library. Caspase‐3 is a group II member (2, 3, 7) categorized by an absolute substrate requirement for aspartic acid in the P₄ position of the scissile bond. The preferred cleavage motif (DExD) for group II caspases is found in many structural, metabolic and repair proteins essential for cellular homeostasis. Consistent with the proposal that apoptosis plays a central in role human neurodegenerative disease, caspase‐3 activation has recently been observed in stroke, spinal cord trauma, head injury and Alzheimer's disease. Indeed, peptide‐based caspase inhibitors prevent neuronal loss in animal models of head injury and stroke suggesting that these compounds may be the forerunners of non‐peptide small molecules that halt apoptosis processes implicated in these neurodegenerative disorders. A clear link between an hereditary neurodegenerative disorder and failed caspase inhibition has recently been proposed for spinal muscular atrophy (SMA). In severe SMA, the neuronal specific inhibitor of apoptosis (IAP) family member known as NAIP is often dysfunctional due to missense and truncation mutations. IAPs such as NAIP potently block the enzymatic activity of group II caspases (3 and 7) suggesting that NAIP mutations may permit unopposed developmental apoptosis to occur in sensory and motor systems resulting in lethal muscular atrophy. Conversely, adenovirally‐mediated overexpression of NAIP or the X‐linked IAP called XIAP reduces the loss of CA1 hippocampal neurons following transient forebrain ischemia. Taken together, these findings suggest that anti‐apoptotic strategies may some day have utility in the treatment of neurodegenerative disease. The present review will summarize some of the recent evidence suggesting that apoptosis inhibitors may become a practical therapeutic approach for both acute and chronic neurodegenerative conditions.

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References

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[b2] 2. Boegman RJ , Smith Y , Parent A ( 1987. ) Quinolinic acid does not spare striatal neuropeptide Y‐immunoreactive neurons . Brain Res 415 : 178 – 182 . [DOI] [PubMed] [Google Scholar]

[b3] 3. Cheng B , Barger SW , Mattson MP ( 1994. ) Staurosporine, K‐252a, and K‐252b stabilize calcium homeostasis and promote survival of CNS neurons in the absence of glucose . J Neurochem 62 : 1319 – 1329 . [DOI] [PubMed] [Google Scholar]

[b4] 4. Chesselet MF , Gonzales C , Lin CS , Polsky K , Jin BK ( 1990. ) Ischemic damage in the striatum of adult gerbils: relative sparing of somatostatinergic and cholinergic interneurons contrasts with loss of efferent neurons . Exp Neurol 110 : 209 – 218 . [DOI] [PubMed] [Google Scholar]

[b5] 5. Clem RJ , Fechheimer M , Miller LK ( 1991. ) Prevention of apoptosis by a baculovirus gene during infection of insect cells . Science 254 : 1388 – 1390 . [DOI] [PubMed] [Google Scholar]

[b6] 6. Clem RJ , Miller LK ( 1994. ) Control of programmed cell death by the baculovirus genes p35 and iap . Mol Cell Biol 14 : 5212 – 5222 . [DOI] [PMC free article] [PubMed] [Google Scholar]

[b7] 7. Colonnier M , Steriade M , Landry P ( 1979. ) Selective resistance of sensory cells of the mesencephalic trigeminal nucleus to kainic acid‐induced lesions . Brain Res 172 : 552 – 556 . [DOI] [PubMed] [Google Scholar]

[b8] 8. Crook NE , Clem RJ , Miller LK ( 1993. ) An apoptosis‐inhibiting baculovirus gene with a zinc finger‐like motif . J Virol 67 : 2168 – 2174 . [DOI] [PMC free article] [PubMed] [Google Scholar]

[b9] 9. D'Mello SR , Galli C , Ciotti T , Calissano P ( 1993. ) Induction of apoptosis in cerebellar granule neurons by low potassium: inhibition of death by insulin‐like growth factor I and cAMP . Proc Natl Acad Sci USA 90 : 10989 – 10993 . [DOI] [PMC free article] [PubMed] [Google Scholar]

[b10] 10. Deveraux QL , Leo E , Stennicke HR , Welsh K , Salvesen GS , Reed JC ( 1999. ) Cleavage of human inhibitor of apoptosis protein XIAP results in fragments with distinct specificities for caspases . Embo J 18 : 5242 – 5251 . [DOI] [PMC free article] [PubMed] [Google Scholar]

[b11] 11. Deveraux QL , Roy N , Stennicke HR , Van Arsdale T , Zhou Q , Srinivasula SM , Alnemri ES , Salvesen GS , Reed JC ( 1998. ) IAPs block apoptotic events induced by caspase‐8 and cytochrome c by direct inhibition of distinct caspases . Embo J 17 : 2215 – 2223 . [DOI] [PMC free article] [PubMed] [Google Scholar]

[b12] 12. Deveraux QL , Takahashi R , Salvesen GS , Reed JC ( 1997. ) X‐linked IAP is a direct inhibitor of cell‐death proteases . Nature 388 : 300 – 304 . [DOI] [PubMed] [Google Scholar]

[b13] 13. Digby MR , Kimpton WG , York JJ , Connick TE , Lowenthal JW ( 1996. ) ITA, a vertebrate homologue of IAP that is expressed in T lymphocytes . DNA Cell Biol 15 : 981 – 9888 . [DOI] [PubMed] [Google Scholar]

[b14] 14. Enari M , Sakahira H , Yokoyama H , Okawa K , Iwamatsu A , Nagata S ( 1998. ) A caspase‐activated DNase that degrades DNA during apoptosis, and its inhibitor ICAD . Nature 391 : 43 – 50 . [DOI] [PubMed] [Google Scholar]

[b15] 15. Endres M , Namura S , Shimizu‐Sasamata M , Waeber C , Zhang L , Gomez‐Isla T , Hyman BT , Moskowitz MA ( 1998. ) Attenuation of delayed neuronal death after mild focal ischemia in mice by inhibition of the caspase family . J Cereb Blood Flow Metab 18 : 238 – 247 . [DOI] [PubMed] [Google Scholar]

[b16] 16. Fink K , Zhu J , Namura S , Shimizu‐Sasamata M , Endres M , Ma J , Dalkara T , Yuan J , Moskowitz MA ( 1998. ) Prolonged therapeutic window for ischemic brain damage caused by delayed caspase activation . J Cereb Blood Flow Metab 18 : 1071 – 1076 . [DOI] [PubMed] [Google Scholar]

[b17] 17. Gleichmann M , Beinroth S , Reed JC , Krajewski S , Schulz JB , Wullner U , Klockgether T , Weller M ( 1998. ) Potassium deprivation‐induced apoptosis of cerebellar granule neurons: cytochrome c release in the absence of altered expression of Bcl‐2 family proteins . Cell Physiol Biochem 8 : 194 – 201 . [DOI] [PubMed] [Google Scholar]

[b18] 18. Goodman Y , Mattson MP ( 1994. ) Staurosporine and K‐252 compounds protect hippocampal neurons against amyloid beta‐peptide toxicity and oxidative injury . Brain Res 650 : 170 – 174 . [DOI] [PubMed] [Google Scholar]

[b19] 19. Hara H , Friedlander RM , Gagliardini V , Ayata C , Fink K , Huang Z , Shimizu‐Sasamata M , Yuan J , Moskowitz MA ( 1997. ) Inhibition of interleukin 1beta converting enzyme family proteases reduces ischemic and excitotoxic neuronal damage . Proc Natl Acad Sci USA 94 : 2007 – 2012 . [DOI] [PMC free article] [PubMed] [Google Scholar]

[b20] 20. Hay BA , Wassarman DA , Rubin GM ( 1995. ) Drosophila homologs of baculovirus inhibitor of apoptosis proteins function to block cell death . Cell 83 : 1253 – 1262 . [DOI] [PubMed] [Google Scholar]

[b21] 21. Hofmann K , Bucher P , Tschopp J ( 1997. ) The CARD domain: a new apoptotic signalling motif . Trends Biochem Sci 22 : 155 – 156 . [DOI] [PubMed] [Google Scholar]

[b22] 22. Kaneko M , Saito Y , Saito H , Matsumoto T , Matsuda Y , Vaught JL , Dionne CA , Angeles TS , Glicksman MA , Neff NT , Rotella DP , Kauer JC , Mallamo JP , Hudkins RL , Murakata C ( 1997. ) Neurotrophic 3, 9‐bis((alkylthio)methyl)‐and‐bis(alkoxymethyl)‐K‐252a derivatives . J Med Chem 40 : 1863 – 1869 . [DOI] [PubMed] [Google Scholar]

[b23] 23. Knusel B , Hefti F ( 1992. ) K‐252 compounds: modulators of neurotrophin signal transduction . J Neurochem 59 : 1987 – 1996 . [DOI] [PubMed] [Google Scholar]

[b24] 24. Kordower JH , Freeman TB , Chen EY , Mufson EJ , San‐berg PR , Hauser RA , Snow B , Olanow CW ( 1998. ) Fetal nigral grafts survive and mediate clinical benefit in a patient with Parkinson's disease . Mov Disord 13 : 3833 – 93 . [DOI] [PubMed] [Google Scholar]

[b25] 25. Kuida K , Haydar TF , Kuan CY , Gu Y , Taya C , Karasuyama H , Su MS , Rakic P , Flavell RA ( 1998. ) Reduced apoptosis and cytochrome c‐mediated caspase activation in mice lacking caspase 9 . Cell 94 : 325 – 337 . [DOI] [PubMed] [Google Scholar]

[b26] 26. Kuida K , Zheng TS , Na S , Kuan C , Yang D , Karasuyama H , Rakic P , Flavell RA ( 1996. ) Decreased apoptosis in the brain and premature lethality in CPP32‐deficient mice . Nature 384 : 368 – 372 . [DOI] [PubMed] [Google Scholar]

[b27] 27. Lefebvre S , Burglen L , Reboullet S , Clermont O , Burlet P , Viollet L , Benichou B , Cruaud C , Millasseau P , Zeviani M , et al. ( 1995. ) Identification and characterization of a spinal muscular atrophy‐determining gene . Cell 80 : 155 – 165 . [DOI] [PubMed] [Google Scholar]

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Neuroprotection by the Inhibition of Apoptosis

George S Robertson

Stephen J Crocker

Donald W Nicholson

Jörg B Schulz

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Neuroprotection by the Inhibition of Apoptosis

George S Robertson

Stephen J Crocker

Donald W Nicholson

Jörg B Schulz

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