In Down syndrome, enhanced apoptosis (programmed cell death) may play a role in the pathogenesis of characteristic early mental retardation and precocious neurodegeneration of Alzheimer type. Various apoptosis-associated proteins (Bax, Bcl-2, Fas, p53, Hsp70, neuronal apoptosis inhibitory protein-like immunoreactivity) were investigated in four different cortical regions and the cerebellum of one fetal Down syndrome (35 weeks' gestation) postmortem brain sample compared with a control brain sample. The most impressive finding was an at least fivefold elevation of Bax protein together with decreased Bcl-2 values in all Down syndrome cerebral regions investigated. In addition, antiapoptotic, presumably caspase-inhibitory, principles like heat shock protein 70 and neuronal apoptosis inhibitory protein were also reduced. Whereas Fas protein, an important member of receptor-mediated apoptosis, was inconsistently altered, a rather surprising finding was reduced proapoptotic, regulatory protein p53 in four of five regions. The findings are in good agreement with the proposed role of the Bcl-2 protein family in regulating developmental (naturally occurring) apoptotic neuronal death and further suggest that developmental apoptosis may be inappropriately commandeered by so far undefined pathologic processes in Down syndrome. (J Child Neurol 2001;16:438-442).
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References
1.
Wisniewski KE , Kida E.: Abnormal neurogenesis and synaptogenesis in Down syndrome brain. Dev Brain Dysfunct1994;7: 289-301.
2.
Wisniewski KE , Wisniewski HM, Wen GY: Occurrence of neuropathological changes and dementia of Alzheimer's disease in Down syndrome. Ann Neurol1985;17:278-282.
3.
Epstein CJ: Down syndrome (trisomy 21), in Scriver SR , Beaudet AL, Sly WS, Valle D, (eds): The Metabolic and Molecular Bases of Inherited Disease. New York, McGraw-Hill, 1995, 749-794.
4.
Busciglio J. , Yankner BA: Apoptosis and increased generation of reactive oxygen species in Down syndrome. Nature1995 ;378: 776-779.
5.
Sawa A., Oyama F., Cairns NJ, et al: Aberrant expression of bcl-2 gene family in Down's syndrome brains. Mol Brain Res1997;48: 53-59.
6.
DelaMonte SM , Sohn YK, Ganju N., Wands JR: p53- and CD95-associated apoptosis in neurodegenerative diseases. Lab Invest1998; 78:401-411.
7.
Becker LE: Synaptic dysgenesis. Can JNeurol Sci1991;18:170-180.
8.
Oppenheim RW : Cell death during development of the nervous system. Annu Rev Neurosci1991;14:453-501.
9.
Hutchins JB, Barger SW: Why neurons die: Cell death in the nervous system. Anat Rec1998;253:79-90.
10.
Aravind L., Dixit VM, Koonin EV: The domains of death: Evolution of the apoptosis machinery. Trends BiolSci1999;24:47-53.
11.
Yoshida H., Kong Y-Y., Yoshida R., et al: Apaf1 is required for mitochondrial pathways of apoptosis and brain development. Cell1998;94:739-750.
12.
Kroemer G.: The proto-oncogene Bcl-2 and its role in regulating apoptosis. Nat Med1997;3:614-620.
13.
Rosse T., Olivier R., Monney L., et al: Bcl-2 prolongs cell survival after Bax-induced release of cytochrome c. Nature1998;391: 496-499.
14.
Li P., Nijhawan D., Budihard JO, et al: Cytochrome c and dATPdependent formation of Apaf-1/caspase-9 complex initiates an apoptotic protease cascade. Cell1997;91:479-489.
15.
Nunez G., Benedict MA, Hu Y., Inohara N.: Caspases: The proteases of the apoptotic pathway. Oncogene1998; 17:3237-3245.
16.
Kirsch DG, Doseff A., Chau BN, et al: Caspase-3-dependent cleavage of Bcl-2 promotes release of cytochrome c. J Biol Chem1999;274:21155-21161.
17.
Lowry OH, Rosebrough NJ, Farr AL, Randall RJ: Protein measurement with the folin phenol reagent. J Biol Chem1951;193: 265-275.
18.
Sadoul R.: BCL-2 family members in the development and degenerative pathologies of the nervous system. Cell Death Diff1998 ; 5:805-815.
19.
White FA, Keller-Peck CR, Knudson CM, et al: Widespread elimination of naturally occurring neuronal death in bax-deficient mice. J Neurosci1998;18:1428-1439.
20.
Vekrellis K. , McCarthy MJ, Watson A., et al: Bax promotes neuronal cell death and is down regulated during the development of the nervous system. Development1997;124:1239-1249.
21.
Shimohama S. , Fujimoto S., Sumida Y., Tanino H.: Differential expression of the rat brain Bcl-2 family proteins in development and aging . Biochem Biophys Res Commun1998;252:92-96.
22.
Merry DE, Veis DJ, Hickey WF, Korsmeyer SJ: Bcl-2 expression is widespread in the developing nervous system and retained in the adult PNS. Development1994 ;120:301-311.
23.
Chan WY, Yew DT: Apoptosis and Bcl-2 oncoprotein expression in the human fetal central nervous system. Anat Rec1998;252: 165-175.
24.
Yachnis AT, Powell SZ, Olmsted JJ, Eskin TA: Distinct neurodevelopmental patterns of the bcl-2 and bcl-x expression are altered in glioneuronal hamartias of the human temporal lobe. J Neuropathol Exp Neurol1997;56:186-198.
25.
Prayson RA: Bcl-2 and Bcl-X expression in gangliogliomas. Hum Pathol1999;30:701-705.
26.
Obonai T., Mizuguchi M., Takashima S.: Developmental and aging changes of bak expression in the human brain . Brain Res1998;783: 167-170.
27.
Becker LE, Armstrong DL, Chan F.: Dendritic atrophy in children with Down's syndrome. Ann Neurol1986;20:520-526.
28.
Takashima S. , Becker LE, Armstrong DL, Chan F.: Abnormal neuronal development in the visual cortex of the human fetus and infant with Down's syndrome. A quantitative and qualitative Golgi study. Brain Res1981 ;225:1-21.
29.
Scott BS, Petit TL, Becker LE, Edwards Bav: Abnormal electric membrane properties of Down's syndrome DRG neurons in culture . Dev Brain Res1982;2:257-270.
30.
VanLookeren Campagne M, Gill R: Tumor-suppressor p53 is expressed in proliferating and newly formed neurons of the embryonic and postnatal rat brain: Comparison with expression of the cell cycle regulators p21 (Wafl/Cipl), p27 (Kip1), P57 (Kip2), p16 (Ink4a), Cyclin G1, and the proto-oncogene bax. J Comp Neurol1998;397:181-198.
31.
Mosser DD, Caron AW, Bourget L., et al: Role of human heat shock protein hsp70 in protection against stress-induced apoptosis. Mol Cell Biol1997 ;17:5317-5327.
32.
Roy N., Deveraux QL, Takahashi R., et al: The c-IAP-1 and c-IAP-2 proteins are direct inhibitors of specific caspases. EMBO J1997;16:6914-6925.
33.
Roy N., Mahadevan MS, McLean M., et al: The gene for neuronal apoptosis inhibitory protein is partially deleted in individuals with spinal muscular atrophy. Cell1995;80:167-178.
34.
Liston P., Roy N., Tamai K., et al: Suppression of apoptosis in mammalian cells by neuronal apoptosis inhibitory protein and a related family of IAP genes. Nature1996;379:349-353.
35.
Chen QF, Baird SD, Mahadevan M., et al: Sequence of a 131-kb region of 5q13.1 containing the spinal muscular atrophy candidate genes SMN and NAIP. Genomics1998;48:121-127.
36.
Srinivasan A., Roth KA, Sayers RO, et al: In situ immunodetection of activated caspase-3 in apoptotic neurons in the developing nervous system . Cell Death Diff1998;5:1004-1016.
