Mechanisms of aluminium neurotoxicity in oxidative stress-induced ...

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Page 1: Universidade de Santiago de Compost

Page 5: Don Ramón Soto Otero y Doña Estef

Page 9 and 10: Acknowledgements The work of this t

Page 11 and 12: Abbreviations AA ascorbic acid AD A

Page 13: Abbreviations (continuation) PCC pr

Page 16 and 17: List of figures (continuation) Chap

Page 19 and 20: TABLE OF CONTENTS INTRODUCTION ....

Page 21: CHAPTER 3 Brain oxidative stress an

Page 25 and 26: INTRODUCTION PARKINSON’S DISEASE

Page 27 and 28: INTRODUCTION PD is found in all eth

Page 29 and 30: Bradykinesia INTRODUCTION Bradykine

Page 31 and 32: INTRODUCTION predate the occurrence

Page 33 and 34: Table 1: Differential diagnostic in

Page 35 and 36: INTRODUCTION Table 3: National Inst

Page 37 and 38: Figure 4: Dopamine catabolism (Mén

Page 39 and 40: The basal ganglia INTRODUCTION The

Page 41 and 42: The death of SNpc DAergic neurons I

Page 43 and 44: INTRODUCTION the dorsomedial part o

Page 45 and 46: INTRODUCTION characterized as are l

Page 47 and 48: INTRODUCTION (Olanow et al. 2004).

Page 49 and 50: Etiology and pathogenesis of PD INT

Page 51 and 52: Ageing INTRODUCTION Ageing remains

Page 53 and 54: INTRODUCTION The finding of MPTP to

Page 55 and 56: INTRODUCTION may clarify why many n

Page 57 and 58: Misfolding and aggregation of prote

Page 59 and 60: INTRODUCTION (E3) (Figure 18A). Los

Page 61 and 62: INTRODUCTION in connection with Par

Page 63 and 64: INTRODUCTION Oxidative damage happe

Page 65 and 66: DA metabolism as a source of ROS IN

Page 67 and 68: Contribution of oxidative and nitro

Page 69 and 70: Excitotoxicity INTRODUCTION Glutama

Page 71 and 72: INTRODUCTION al. 1996, Cicchetti et

Page 73 and 74: Experimental models of PD INTRODUCT

Page 75 and 76: INTRODUCTION induce selective DAerg

Page 77 and 78: ALUMINIUM General features INTRODUC

Page 79 and 80: INTRODUCTION Varying amounts of alu

Page 81 and 82: INTRODUCTION and antiperspirants co

Page 83 and 84: INTRODUCTION approximately 3% of al

Page 85 and 86: Excretion INTRODUCTION As insoluble

Page 87 and 88: INTRODUCTION 3.5 mg may be increase

Page 89 and 90: INTRODUCTION Oteiza 1999), non-iron

Page 91 and 92: Aluminium as a cell membrane menace

Page 93 and 94: INTRODUCTION mobilization of Ca 2+

Page 95: Aluminium impairs neurotransmission

Page 99 and 100: AIMS OF THE PRESENT THESIS The main

Page 101: OBJETIVOS

Page 104 and 105: OBJETIVOS 3) Evaluar de forma preci

Page 107: CHAPTER 1 Time-course of brain oxid

Page 110 and 111: CHAPTER 1 INTRODUCTION 86 6-OHDA (2

Page 112 and 113: CHAPTER 1 MATERIALS AND METHODS Che

Page 114 and 115: CHAPTER 1 followed by centrifugatio

Page 116 and 117: CHAPTER 1 RESULTS Effects of 6-OHDA

Page 118 and 119: CHAPTER 1 DISCUSSION 94 As shown by

Page 120 and 121: CHAPTER 1 strategies or to study th

Page 122 and 123: CHAPTER 1 Fig. 2 Changes in PCC in

Page 125: CHAPTER 2

Page 129 and 130: ABSTRACT CHAPTER 2 In the present w

Page 131 and 132: MATERIALS AND METHODS Chemicals CHA

Page 133 and 134: CHAPTER 2 atomization used were 1,5

Page 135 and 136: DISCUSSION CHAPTER 2 Aluminium ente

Page 137: Table 1. Graphite furnace programme

Page 141: CHAPTER 3 Brain oxidative stress an

Page 144 and 145: CHAPTER 3 INTRODUCTION 120 The huma

Page 146 and 147: CHAPTER 3 MATERIALS AND METHODS Che

Page 148 and 149: CHAPTER 3 1:15 for hippocampus and

Page 150 and 151: CHAPTER 3 initially incorporated to

Page 152 and 153: CHAPTER 3 RESULTS In vivo effects o

Page 154 and 155: CHAPTER 3 Effects of aluminium admi

Page 156 and 157: CHAPTER 3 DISCUSSION 132 Aluminium

Page 158 and 159: CHAPTER 3 hippocampus, showed simil

Page 160 and 161: CHAPTER 3 assume that the distinct

Page 162 and 163: CHAPTER 3 Fig. 1 Levels of TBARS (A

Page 164 and 165: CHAPTER 3 Fig. 2 Enzyme activity of

Page 166 and 167: CHAPTER 3 Fig. 3 Microphotographs s

Page 168 and 169: CHAPTER 3 Fig. 5 Levels of TBARS (A

Page 170 and 171: CHAPTER 3 Fig. 6 In vitro effects o

Page 173: SUMMARY

Page 176 and 177: SUMMARY values were attained at 48

Page 178 and 179: SUMMARY neurodegeneration in the DA

Page 181 and 182: CONCLUSIONS The results obtained in

Page 183: 13) Aluminium does affect neither M

Page 187 and 188: RESUMEN RESUMEN Desde el punto de v

Page 189 and 190: RESUMEN zonas cerebrales excepto en

Page 191: CONCLUSIONES

Page 194 and 195: CONCLUSIONES Capítulo 2 4) La admi

Page 196 and 197: CONCLUSIONES 172 En base a las conc

Page 199 and 200: Publications as a direct result fro

Page 201: REFERENCES

Page 204 and 205: REFERENCES Agil A., Duran R., Barre

Page 206 and 207: REFERENCES Baquet Z. C., Bickford P

Page 208 and 209: REFERENCES 184 1,2,3,6-tetrahydropy

Page 210 and 211: REFERENCES 186 compacta of the subs

Page 212 and 213: REFERENCES Chung K. K., Dawson V. L

Page 214 and 215: REFERENCES Davies K. J. (2001) Degr

Page 216 and 217: REFERENCES Dhillon A. S., Tarbutton

Page 218 and 219: REFERENCES Ekstrand M. I., Falkenbe

Page 220 and 221: REFERENCES Fleming S. M., Delville

Page 222 and 223: REFERENCES Ghribi O., Dewitt D. A.,

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Page 238 and 239: REFERENCES 214 K.D. and Polymeropou

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Page 244 and 245: REFERENCES Miu A. C. and Benga O. (

Page 246 and 247: REFERENCES Nair V. D., McNaught K.,

Page 250 and 251: REFERENCES Perez F. A. and Palmiter

Page 252 and 253: REFERENCES Przedborski S. and Goldm

Page 254 and 255: REFERENCES Rifat S. L., Eastwood M.

Page 256 and 257: REFERENCES Rymar V. V., Sasseville

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Page 262 and 263: REFERENCES 238 the generation of hy

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Page 268 and 269: REFERENCES Vila M. and Przedborski

Page 270 and 271: REFERENCES Whitehead M. W., Farrar

Page 272 and 273: REFERENCES Yokel R. A. (2002a) Alum

Page 274: REFERENCES Zhou W., Zhu M., Wilson

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