Programa:
Estrés oxidativo y
enfermedades neurodegenerativas
Después de discutir las bases de cada tema les sugiero los siguientes artículos, si ustedes quieren proponer otros solo agreguen la cita en comentarios por favor.
1.
Introducción
Chapter 3
Oxidative Stress and Neurodegenerative Disease
Selva Rivas-Arancibia, Cesar Gallegos-Ríos, Nancy
Gomez-Crisostomo, Ever Ferreira-Garcidueñas, et al. 2011
2.
Formación de radicales libres en el organismo
Free radicals and
antioxidants in normal physiological functions and human disease
Marian Valkoa, , , Dieter
Leibfritzb, Jan Moncola, Mark T.D. Croninc, Milan Mazura, Joshua Telserd. The
International Journal of Biochemistry & Cell Biology
Volume 39, Issue 1, 2007,
Pages 44–84
DNA damage by singlet
oxygen and cellular protective mechanisms. Lucymara F. Agnez-Lima a,*, Julliane T.A. Melo a, Acarı´zia et al.. Mutation
Research 751 (2012) 15–28
3.
Especies reactivas de oxigeno
Free radicals and
antioxidants in normal physiological functions and human disease
Marian Valkoa, , , Dieter
Leibfritzb, Jan Moncola, Mark T.D. Croninc, Milan Mazura, Joshua Telserd. The
International Journal of Biochemistry & Cell Biology
Volume 39, Issue 1, 2007,
Pages 44–84
Role of peroxisomes in
ROS/RNS-metabolism: Implications for human disease☆
Marc Fransen ⁎, Marcus Nordgren, Bo Wang, Oksana Apanasets. Biochimica
et Biophysica Acta 1822 (2012) 1363–1373
4. Sistemas
antioxidantes
Glutathione in Cerebral Microvascular
Endothelial. Biology and Pathobiology: Implications for Brain Homeostasis. Wei
Li, Carmina Busu,Magdalena L. Circu, and Tak Yee Aw. International Journal of
Cell Biology. Volume 2012.
In Utero Oxidative Stress
Epigenetically Programs. Antioxidant Defense Capacity and Adulthood Diseases. Rita
S. Strakovsky1 and Yuan-Xiang Pan. Antioxidants & Redox Signaling. Volume
17, Number 2, 2012.
Mitochondria: Omega-3 in
the route of mitochondrial reactive oxygen species
Kaïs H. Al-Gubory. The
International Journal of Biochemistry & Cell Biology 2012
5.
Equilibrio redox en los seres vivos
The control of the balance
between ceramide and sphingosine-1-phosphate by
sphingosine kinase:
Oxidative stress and the seesaw of cell survival and death
James R. Van Brocklyn ⁎, Joseph B. Williams. Comparative
Biochemistry and Physiology, Part B 163 (2012) 26–36
6.
Las especies reactivas como
señalizadores en los sistemas biológicos
Hydrogen Sulfide Is a
Signaling Molecule and a Cytoprotectant. Hideo Kimura, Norihiro Shibuya, and Yuka Kimura. Antioxidants & Redox Signaling. Volume 17, Number 1, 2012.
7.
Cambios de la señalización en la
pérdida aguda del equilibrio redox, estallido respiratorio e infecciones
agudas.
Oxidants, Antioxidants,
and the Beneficial Roles of Exercise-Induced Production of Reactive Species. Elisa Couto Gomes,1 Alben´aNunes Silva,2
andMarta Rubino de Oliveira.
Oxidative Medicine and
Cellular Longevity. Volume 2012
Redox-Active Antiparasitic Drugs.
Chinmay Pal and Uday Bandyopadhyay. Antioxidants & Redox Signaling. Volume 17, Number 4, 2012
8.
Cambios en la señalización de la en
los sistemas biológicos por estados crónicos de estrés oxidativo.
Oxidative Stress, DNA
Damage, and c-Abl Signaling: At the Crossroad in Neurodegenerative Diseases? Stefania Gonfloni,1 EmilianoMaiani,1 Claudia
Di Bartolomeo,1Marc Diederich,2 and Gianni Cesareni1 International Journal of
Cell Biology
Volume 2012.
Protein-oxidized
phospholipid interactions in cellular signaling for cell death: From
biophysics to clinical
correlations.
Paavo K.J. Kinnunen a,⁎, Kai Kaarniranta b, Ajay K. Mahalka. Biochimica
et Biophysica Acta 1818 (2012) 2446–2455
S-Glutathionylation
signaling in cell biology: Progress and prospects Anna Pastore a, Fiorella
Piemonte. European Journal of Pharmaceutical Sciences 46 (2012) 279–292
9.
Estrés oxidativo y epigenética
The Redox Basis of
Epigenetic Modifications: From Mechanisms to Functional Consequences. Anthony
R. Cyr and Frederick E. Domann. Antioxidants & Redox Signaling
Volume 15, Number 2, 2011
Epigenetic Manifestation
of Metabolic Syndrome and Dietary Management
Nidhi Chaudhary,1,* Kiran
Kumar Nakka,1,* Nilanjana Maulik,2 and Samit Chattopadhyay. Antioxidants &
Redox Signaling. Volume 17, Number 2, 2012.
Gene regulation by
melatonin linked to epigenetic phenomena. Ahmet Korkmaz, Sergio Rosales-Corral,
Russel J. Reiter. Gene 503 (2012) 1–11
10. Estrés
oxidativo y mitocondria
Mitophagy: A Complex
Mechanism of Mitochondrial Removal. Ivana Novak. Antioxidants & Redox
Signaling. 2012, 17(5): 794-802. doi:10.1089/ars.2011.4407.
Estrogen and the
regulation of mitochondrial structure and function in the brain. Susanne
Arnold, Marion Barbara Victor, Cordian Beyer. Journal of Steroid Biochemistry
& Molecular Biology 131 (2012) 2– 9
Novel mitochondrial
targets for neuroprotection. Miguel A Perez-Pinzon1,5, R Anne Stetler2,3,5 and
Gary Fiskum. Journal of Cerebral Blood Flow & Metabolism (2012) 32,
1362–1376.
Transcriptome analysis in
mitochondrial disorders. Matthias Elstnera,∗, Douglass M. Turnbul. Brain
Research Bulletin 88 (2012) 285– 293
11.
Estado crónico de estrés oxidativo y
perdida de regulación del sistema inmune.
Exercise and the aging
immune system .Richard J. Simpson∗, Thomas W. Lowder, Guillaume Spielmann, Austin B. Bigley, Emily C. LaVoy, Hawley Kunz. Ageing
Research Reviews 11 (2012) 404– 420.
Crosstalk
between macrophages and smooth muscle cells in atherosclerotic
vascular diseases. Jun-ichiro Koga, Masanori Aikawa.
Crosstalk of reactive oxygen species and NF-κB signaling. Michael J
Morgan, Zheng-gang Liu. Cell Research (2011) 21:103-115
12.
Estado crónico de estrés oxidativo y
perdida de regulación de la respuesta inflamatoria
NF-κB signaling pathway
and free radical impact. Agnieszka Siomek. Paper in Press, No 2012_284 .Acta Biochimica Polonica Vol. 59, 2012.
13.
Estado crónico de estrés oxidativo y
perdida de regulación de la respuesta inflamatoria y su asociación con
enfermedades crónico-degenerativas e irreversibles
Mutual cross-talk between
reactive oxygen species and nuclear factor-kappa B: molecular basis and
biological significance. C Bubici1, S Papa1, K Dean1 and G Franzoso. Oncogene
(2006) 25, 6731–674
14.
Estado de estrés oxidativo y
plasticidad cerebral
Discusión de varios artículos
15.
Contaminación ambiental,
enfermedad y cerebro
The Adverse Effects of Air
Pollution on the Nervous System
Sermin Genc,1 Zeynep
Zadeoglulari,1 Stefan H. Fuss,2 and Kursad Genc1 Journal of Toxicology.Volume
2012
Air pollutants: The key
stages in the pathway towards the development of cardiovascular disorders.
Kohli Shrey, Ahuja Suchit, Dogra Deepika, Krishnan Shruti, Rani Vibha∗
Environmental Toxicology
and Pharmacology 3 1 ( 2 0 1 1 ) 1–9
16.
Estado de estrés oxidativo, síndrome
metabólico y apolipoproteínas
Crosstalk between
macrophages and smooth muscle cells in atherosclerotic
vascular
diseases. Jun-ichiro Koga a, Masanori Aikawa. Vascular Pharmacology 57 (2012)
24–28.
Crosstalk between Nrf2 and
the proteasome: Therapeutic potential of Nrf2
inducers in vascular
disease and aging. Sarah J. Chapple, Richard C.M. Siow, Giovanni E. Mann. The
International Journal of Biochemistry & Cell Biology 44 (2012) 1315– 1320
Roles of Hydrogen Sulfide
in the Pathogenesis of Diabetes Mellitus and Its Complications. Csaba Szabo. Antioxidants & Redox
Signaling. Volume 17, Number 1, 2012
17.
Estado de estrés oxidativo y
Enfermedad de Alzheimer
Mitochondrial- and
Endoplasmic Reticulum-Associated Oxidative Stress in Alzheimer’s Disease:
FromPathogenesis to Biomarkers. E.
Ferreiro, I. Baldeiras. L. Ferreira, R. O. Costa,. C. Rego, C. F. Pereira, and
Oliveira. International Journal of Cell Biology
Volume 2012, 23 pages.
Synaptic Mitochondrial
Pathology in Alzheimer’s Disease. Heng Du,1 Lan Guo,1 and Shirley ShiDu Yan.
Antioxidants & Redox Signaling. Volume 16, Number 12, 2012
Amyloid-β and Mitochondria
in Aging and Alzheimer’s Disease: Implications for
Synaptic Damage and
Cognitive Decline. P. Hemachandra Reddya,b,∗, Maria Manczaka, Peizhong Maoa, Marcus J.
Calkinsa, Arubala P. Reddya and Ulziibat Shirendeba. Journal
of Alzheimer’s Disease 20 (2010) S499–S512
18.
Estado de estrés oxidativo y
Enfermedad de Parkinson
The Neuroprotection of
Hydrogen Sulfide Against MPTP-Induced Dopaminergic Neuron Degeneration Involves
Uncoupling Protein 2 Rather Than ATP-Sensitive Potassium Channels. Ming Lu,1
Fang-Fang Zhao,1 Juan-Juan Tang,1 Cun-Jin Su,1 Yi Fan,1 Jian-Hua Ding, Jin-Song
Bian,1,2 and Gang Hu. Antioxidants & Redox Signaling. Volume 17, Number 6,
2012
Mitochondrial Dysfunction
in Parkinson’s Disease. Jianhui Zhu and Charleen T. Ch. Journal of Alzheimer’s
Disease 20 (2010) S325–S334
19.
Estado de estrés oxidativo y
Enfermedad de Huntington
Reactive Oxygen Species:
Stuck in the Middle of Neurodegeneration. David A. Patten1, Marc Germain1,
Melissa A. Kelly and Ruth S. Slack . Journal of Alzheimer’s Disease 20 (2010)
S357–S367
20.
Estado de estrés oxidativo y ELA
21.
Estado de estrés oxidativo y
Esclerosis Múltiple
22.
Estado de estrés oxidativo y Cáncer
Mitochondrial remodeling
in cancer metabolism and survival: Potential for
new therapies. Inês A. Barbosa
a, Nuno G. Machado a, Andrew J. Skildum b, Patricia M. Scott b, Paulo J.
Oliveira. Biochimica et Biophysica
Acta 1826 (2012) 238–254
Consequences of oxidative
stress in age-related macular degeneration
Stuart G. Jarrett a, Michael
E. Boulton. Molecular Aspects of Medicine 33 (2012) 399–417
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