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Buchake, V. V.
- A Neurodegenerative Disorder-Alzheimer Disease: A Treatise
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1 Kalyani Charitable Trust's R.G. Sapkal College of Pharmacy, Sapkal Knowledge Hub. Anjaneri, Trimbakeshwar, Nashik 422 212, IN
1 Kalyani Charitable Trust's R.G. Sapkal College of Pharmacy, Sapkal Knowledge Hub. Anjaneri, Trimbakeshwar, Nashik 422 212, IN
Source
Research Journal of Pharmacology and Pharmacodynamics, Vol 2, No 4 (2010), Pagination: 268-273Abstract
Alzheimer disease (AD), though not a life threatening disease but increase the morbidity rate of an individual. It can be very well correlated with the retrograde amnesia. But specifically as it is encountered in elder subjects, it is represented as Senile Dementia. The earliest observable symptoms are often mistakenly thought to be 'age-related' concerns, or manifestations of stress. In the early stages, the most commonly recognized symptom is memory loss, such as difficulty in remembering recently learned facts. When a doctor or physician has been notified, and AD is suspected, the diagnosis is usually confirmed with behavioral assessments and cognitive tests, often followed by a brain scan if available. As the disease advances, symptoms include confusion, irritability and aggression, mood swings, language breakdown and long-term memory loss is also assumed. Gradually, bodily functions are lost, ultimately leading to death. It is found that some plaque is present in the brain. One area of clinical research is focused on treating the underlying disease pathology by reduction of amyloid beta levels is a common target of compounds under investigation. Immunotherapy or vaccination for the amyloid protein is one treatment modality under study. Unlike preventative vaccination, the putative therapy would be used to treat people already diagnosed.Keywords
Alzheimer Disease, β-amyloid.References
- McKhann G, Drachman DA, Folstein M, Katzman R, Price D, and Stadlan EM. Clinical diagnosis of Alzheimer's disease. Neurology 1984; 34: 939-944.
- Petersen RC, Smith GE, Waring SC, Ivnik R, Tangalos, EG, and Kokmen, E. Mild cognitive impairment. Clinical characterization and outcome. Arch. Neurol. 1999; 56: 303-308.
- Katzman R. The prevalence and malignancy of Alzheimer disease. Arch. Neurol. 1976; 33: 217-218.
- Bowen DM, Smith CB, White P, and Davison AN. Neurotransmitter-related enzymes and indices of hypoxia in senile dementia and other a biotrophies. Brain. 1976; 99: 459-496.
- Davies P and Maloney AJF. Selective loss of central cholinergic neurons in Alzheimer's disease. Lancet. 1976; 2: 1943.
- Perry EK. Gibson PH, Blessed G, Perry RH, and Tomlinson BE. Neurotransmitter enzyme abnormalities in senile dementia. Choline acetyltransferase and glutamic acid decarboxylase activities in necroscopy brain tissue. J.Neurol.Sci. 1977; 34: 247-265.
- Wenk GL. Neuropathologic Changes in Alzheimer's disease. J.Clin.Psychiatry. 2003; 64(9): 7-10.
- Lipton SA. Paradigm shift in neuroprotection by NMDA receptor blockade: memantine and beyond. Nat. Rev. Drug Discovery. 2006; 5(2): 160-170.
- Palmer AM, Wilock GK, Esiri MM, Francis, PT and Bowen DM. Monoaminergic innervation of the frontal and temporal lobes in alzheimer's disease. Brain Res. 1987; 401: 231-238.
- Leake A, Moore PB, Leitch M., Ayre K, Perry RH, Ince PG, Ferrier IN. The serotonergic system in Alzheimer's disease and normal neocortical post mortem brain: neurochemical and clinical correlates. Neurol. Psychar. Brain Res. 1993; 2: 53-59.
- Yates CM, Simpson J, Gordon A, Maloney AFJ, Allison Y, Ritchie IM, and Urquhart A. Catecholamine and cholinergic enzymes in pre senile and senile Alzheimer type dementia and Down's syndrome. Brain Res. 1983; 280: 119-126.
- Naslund J, Haroutunian V, Mohs R, Davis KL, Davies P. Greengard P. and Buxbaum, JD. Correlation between elevated levels of amyloid beta-peptide in the brain and cognitive decline. JAMA. 2000; 283: 1571-1577.
- Chen GQ, Chen KS, Knox J, Inglis J, Bernard A, Martin SJ, Justice A, McConlogue L, Games D, Freedman SB and Morris RG. A learning deficit related to age and β-amyloid plaques in a mouse model of Alzheimer's disease, Nature. 2000; 408: 975-979.
- The National Institute on Aging, and Reagan Institute Working Group on Diagnostic Criteria for the Neuropathological Assessment of Alzheimer's disease. In Consensus recommendations for the post-mortem diagnosis of Alzheimer's disease. Neurobiol. Aging. 1997; 18: S1-S2.
- Lewis J, Dickson DW, Lin WL, Chisholm L, Corral A, Jones G, Yen SH, Sahara N, Skipper L and Yager D et al., Enhanced neurofibrillary degeneration in transgenic mice expressing mutant tau and APP, Science. 2001; 293: 1487-1491.
- Citron M. Alzheimer's disease: Treatments in discovery and development, Nat. Neurosci. 2002; 5: 1055-1057.
- DeMattos RB, Bales KR, Cummins DJ, Dodart JC, Paul SM and Holtzman DM, Peripheral anti-Aβ antibody alters CNS and plasma Aβ clearance and decreases brain Aβ burden in a mouse model of Alzheimer's disease, Proc. Natl. Acad. Sci. USA. 2001; 98: 8850-8855.
- Diagnostic and statistical manual of mental disorders, 4th ed. DSMIV. Washington, D.C.: American Psychiatric Association, 1994.
- Kawas CH. Early Alzheimer's disease. N Engl J Med 2003; 349: 1056-63.
- Knopman DS, DeKosky ST, and Cummings JL, et al. Practice parameter: Diagnosis of dementia (an evidence-based review): report of the Quality Standards Subcommittee of the American Academy of Neurology. Neurology 2001; 56: 1143-53.
- Silverman DH, Small GW, Chang CY, et al. Positron emission tomography in evaluation of dementia: regional brain metabolism and long-term outcome. JAMA 2001; 286: 2120-7.
- The American Association for Geriatric Psychiatry published a consensus statement on Alzheimer's treatment in 2006.
- Cummings JL, Back C. The cholinergic hypothesis of neuropsychiatric symptoms in Alzheimer's disease. Am J Geriatr Psychiatry. 1998; 6: S64-78.
- Perry EK, Perry RH, Blessed G, Tomlinson BE. Necropsy evidence of central cholinergic deficits in senile dementia. Lancet 1977; 1: 189.
- Mesulam MM, Guillozet A, Shaw P, Levey A, Duysen EG, Lockridge O. Acetyl cholinesterase knockouts establish central cholinergic pathways and can use butyrylcholinesterase to hydrolyze acetylcholine. Neuroscience 2002b; 110: 627-39.
- Scarpioi E, Scheltens P, Feldman H. Treatment of Alzheimer's disease: Current status and new perspectives. Lancet Neurol 2003; 2: 539-47.
- Loy C, Schneider L. Galantamine for Alzheimer's disease. Cochrane Database Syst Rev 2004, CD001747.
- Birks JS, Harvey R. Donepezil for dementia due to Alzheimer's disease. Cochrane Database Syst. Rev 2003; CD001190.
- Kaduszkiewicz H, Zimmermann T, Beck-Bornholdt HP, Van den Bussche H. Cholinesterase inhibitors for patients with Alzheimer's disease: Systematic review of randomized clinical trials. BMJ 2005; 331: 321-7.
- Hynd MR, Scott HL, Dodd PR. Glutamate-mediated excitotoxicity and neurodegeneration in Alzheimer's disease. Neurochem Int. 2004; 45: 583-95.
- Kornhuber J, Weller M. Psychotogenicity and N-methyl-
d -aspartate receptor antagonism: implications for neuroprotective pharmacotherapy. Biol Psychiatry 1997; 41: 135-44. - Javitt DC. Glutamate as a therapeutic target in psychi atric disorders. Mol Psychiatry 2004; 9: 984-97-979.
- Areosa Sastre A, Sherriff F, McShane R. Memantine for dementia (Cochrane Review). Cochrane Database Syst Rev 2005; 2.
- Hood WF, Sun ET, Compton RP, Monahan JB. 1-aminocyclobutane 1-carboxylase (ACBC): A specific antagonist of the N-methyl-
d -aspartate receptor coupled glycine receptor. Eur.J.Pharmacol. 1989; 161: 281-282. - Honore T, Davies SN, Drejer J, Fletcher EJ, Jacobsen P, Lodge D, and Nielsen FE. Quinoxalinediones: potent competitive non NMDA glutamate receptor antagonist.Science. 1988; 241: 701-703.
- Alzheimer A. Ueber eigenartige Krankheitsfaelle des spaeteren lters. Zeitschrift fuer die Gesamte Neurologie und Psychiatrie 1911; 4: 356-85.
- Selkoe DJ. The molecular pathology of Alzheimer's disease. Neuron. 1991; 6: 487-98.
- Glenner GG, Wong CW. Alzheimer's disease: Initial report of the purification and characterization of a novel cerebrovascular amyloid protein. Biochem Biophys Res Commun 1984; 120: 885-90.
- Terry RD. The fine structure of neurofibrillary tangles in Alzheimer's disease. J Neuropathol Exp Neurol 1963; 22: 629-42.
- Wischik CM, Novak M, Thogersen HC, Edwards PC, Runswick MJ, Jakes R, et al. Isolation of a fragment of tau derived from the core of the paired helical filament of Alzheimer disease. Proc Natl Acad Sci USA 1988; 85: 4506-10.
- Sergeant N, Bussiere T, Vermersch P, Lejeune JP, Delacourte A. Isoelectric point differentiates PHF-tau from biopsy-derived human brain tau proteins. Neuroreport 1995; 6: 2217-20.
- Hardy J, Selkoe DJ. The amyloid hypothesis of Alzheimer's disease: progress and problems on the road to therapeutics. Science 2002; 297: 353-6
- Murrell J, Farlow M, Ghetti B, Benson MD. A. mutation in the amyloid precursor protein associated with hereditary Alzheimer's disease. Science 1991; 254: 97-9.
- Sherrington R, Rogaev EI, Liang Y, Rogaeva EA, Levesque G, Ikeda M, et al. Cloning of a gene bearing missense mutations in early-onset familial Alzheimer's disease. Nature 1995; 375: 754-60.
- Cruts M, Rademakers R. Alzheimer Disease & Front temporal Dementia Mutation Database. Available at: http://www.molgen.ua.ac.be/AD Mutations/. Accessed 2006.
- Kang J, Lemaire HG, Unterbeck A, Salbaum JM, Masters CL, Grzeschik KH, et al. The precursor of Alzheimer's disease amyloid A4 protein resembles a cell-surface receptor. Nature 1987; 325: 733-6.
- Oltersdorf T, Ward PJ, Henriksson T, Beattie EC, Neve R, Lieberburg I, et al. The Alzheimer amyloid precursor protein. Identification of a stable intermediate in the biosynthetic/degradative pathway. J Biol Chem 1990; 265: 4492-7.
- Weggen S, Eriksen JL, Das P, Sagi SA, Wang R, Pietrzik CU, et al. A subset of NSAIDs lower amyloidogenic A beta 42 independently of cyclooxygenase activity. Nature 2001; 414: 212-6.
- Atwood CS, Moir RD, Huang X, Scarpa RC, Bacarra NM, Romano DM, et al. Dramatic aggregation of Alzheimer A beta by Cu (II) is induced by conditions representing physiological acidosis. J Biol Chem 1998; 273: 12817-26.
- Cherny RA, Atwood CS, Xilinas ME, Gray DN, Jones WD, McLean CA, et al. Treatment with a copper-zinc chelator markedly and rapidly inhibits beta-amyloid accumulation in Alzheimer's disease transgenic mice. Neuron 2001; 30: 665-76.
- Schenk D, Barbour R, Dunn W, Gordon G, Grajeda H, Guido T, et al. Immunization with amyloid-beta attenuates Alzheimer-disease-like pathology in the PDAPP mouse. Nature 1999; 400: 173-7.
- Bard F, Barbour R, Cannon C, Carretto R, Fox M, Games D, et al. Epitope and isotype specificities of antibodies to betaamyloid peptide for protection against Alzheimer's disease-like neuropathology. Proc Natl Acad Sci. USA 2003; 100: 2023-8.
- Buttini M, Masliah E, Barbour R, Grajeda H, Motter R, Johnson-Wood K, et al. Beta-amyloid immunotherapy prevents synaptic degeneration in a mouse model of Alzheimer's disease. J Neurosci. 2005; 25: 9096-101.
- Braak H, Braak E. Staging of Alzheimer's disease-related neurofibrillary changes. Neurobiol Aging. 1995; 16: 271-84.
- Alonso AC, Zaidi T, Grundke-Iqbal I, Iqbal K. Role of abnormally phosphorylated tau in the breakdown of microtubules in Alzheimer disease. Proc Natl Acad Sci USA 1994; 91: 5562-6.
- Mandelkow EM, Mandelkow E. Tau in Alzheimer's disease. Trends Cell Biol 1998; 8: 425-7.
- Johnson GVV, Hartigan JA. Tau protein in normal and Alzheimer's disease brain: an update. Alzheimer's Dis Rev 1998; 3: 125-141.
- Tuppo EE, Arias HR. The role of inflammation in Alzheimer's disease. Int J Biochem Cell Biol 2005; 37: 289-305.
- Szekely CA, Thorne JE, Zandi PP, Ek M, Messias E, Breitner JC, et al. Nonsteroidal anti-inflammatory drugs for the prevention of Alzheimer's disease: a systematic review. Neuroepidemiology. 2004; 23: 159-69.
- Simons M, Keller P, De Strooper B, Beyreuther K, Dotti CG, Simons K. Cholesterol depletion inhibits the generation of beta-amyloid in hippocampal neurons. Proc Natl Acad Sci USA 1998; 95: 6460-4.
- Cordy JM, Hussain I, Dingwall C, Hooper NM, Turner AJ. Exclusively targeting beta-secretase to lipid rafts by GPI-anchor addition up-regulates beta-site processing of the amyloid precursor protein. Proc Natl Acad Sci USA 2003; 100: 11735-40.
- Wolozin B. Cholesterol and the biology of Alzheimer's disease. Neuron 2004; 41: 7-10.
- Wolozin B, Manger J, Bryant R, Cordy J, Green RC, McKee A. Re-assessing the relationship between cholesterol, statins and Alzheimer's disease. Acta Neurol Scand Suppl 2006; 185: 63-70.
- Role of Retinoids in Treatment of Alzheimer's Disease
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Authors
Affiliations
1 KCT's Ravindra Gambhirrao Sapkal College of Pharmacy, Anjaneri, Nashik-13, IN
1 KCT's Ravindra Gambhirrao Sapkal College of Pharmacy, Anjaneri, Nashik-13, IN
Source
Research Journal of Pharmacology and Pharmacodynamics, Vol 4, No 3 (2012), Pagination: 144-149Abstract
Alzheimers disease very basically is characterized by the loss of the cognitive functions. β-amyloid is a major histopathological hallmark of Alzheimer's disease (AD). The disease is characterized by extracellular neuritic plaque composed of fibrillar-amyloid peptide and intracellular neurofibrillary tangles containing hyperphosphorylated tau. The peptides are generated by successive proteolysis of beta amyloid precursor protein, a large transmembrane glycoprotein that is initially cleaved by the site amyloid precursor protein cleaving enzyme -1 and subsequently by gamma secretase in the transmembrane domain. Retinoic acid is active metabolite of Vitamin A. Deprivation of Vitamin A results in amyloid-β accumulation, loss of hippocampal long term potentiation and memory deficit, all of which are hall mark of Alzheimers disease. Here we focused a role of retinoic acid on different pathophysiological features of Alzheimers disease. Retinoic acid may play an active role in treating neurodegenerative disorder. Retinoids appear to normalize many pathological states, and clinical side effects presently reported are mostly not serious except for retinoic acid syndrome.Keywords
Alzheimers, Retinoic Acid, Vitamin A, Amyloid-β, Retinoid X Receptor(RXR).References
- Culvenor JG, Evin G, Cooney MA, Wardan H, Sharples RA, Maher F, et al. Presenlin expression 2 neuronal cell : Induction during differentiation of embryonic carcinoma cells. Experimental Cell Research. 255 ; 2000:192.
- Lahiri S, Buerk DG, Chugh D, Osanai S, Mokashi, A. Reciprocal phoolabile O2 consumption and chemoreceptor excitation by carbon monoxide in the cat carotid body: evidence for cytochrome a3 as the primary O2 sensor. Brain Research. 684; 1995:194.
- Hong CS, Caromile L, Nomata Y, Mori H, Bredesen DE, Koo EH. Contrasting role of presenilin-1 and presenilin-2 in neuronal differentiation in vitro. Journal of Neuroscience. 19; 1999:637.
- Satoh J, Kuroda Y. Amyloid precursor protein beta-secretase (BACE) mRNA expression in human neural cell lines following induction of neuronal differentiation and exposure to cytokines and growth factors. Neuropathology.20; 2000:289.
- Yang Y, Quitschke WW, Brewer GJ. Up regulation of amyloid precursor protein gene promoter in rat primary hippocampal neurons by phorbol ester, IL-1 and retinoic acid, but not by reactive oxygen species. Brain Res Mol Brain Res.60; 1998:40.
- Mangelsdorf DJ, Evans RM. The RXR heterodimers and orphan receptors. Cell. 83;1995: 841.
- Holland, Linda Z, "Developmental biology: A chordate with a difference". Nature. 447; 2007:153.
- Cocco S, Diaz G, Stancampiano R, Diana A, Carta M, Curreli R, Sarais L, et al. Vitamin A deficiency produces spatial learning and memory impairment in rats. Neuroscience.115;2002:475.
- Etchamendy N, Enderlin V, Marighetto A, Pallet V, Higueret P, Jaffard R. Vitamin A deficiency and relational memory deficit in adult mice: relationships with changes in brain retinoid signaling. Behavioral Brain Research.145;2003:37.
- Selkoe DJ. Alzheimer's disease results from the cerebral accumulation and cytotoxicity of amyloid beta-protein. Journals of Alzheimers Disease. 3;2001:75.
- Wenk GL. Neuropathologic Changes in Alzheimer's disease. Journal of Clinical Psychiatry. 64; 2003:7.
- Lipton SA. Paradigm shift in neuroprotection by ofNMDA receptor blockade: memantine and beyond. Nature Review Drug Discovery. 5;2006:160.
- Palmer AM, Wilock GK, Esiri MM, Francis PT and Bowen DM. Monoaminergic innervation of the frontal and temporal lobes in alzheimer's disease. Brain Research. 40;11987: 2238.
- Leake A, Moore PB, Leitch M, Ayre K, Perry RH, Ince PG, et al.The serotonergic system in Alzheimer's disease and normal neocortical post mortem brain: neurochemical and clinical correlates. Neurology Psychiatry and Brain Research. 2;1993:53.
- Yates CM, Simpson J, Gordon A, Maloney AFJ, Allison Y, Ritchie IM, et al. Catecholamine and cholinergic enzymes in pre senile and senile Alzheimer type dementia and Down's syndrome. Brain Research. 280;1983:119.
- Naslund J, Haroutunian V, Mohs R, Davis KL, Davies P. Greengard P et al. Correlation between elevated levels of amyloid beta-peptide in the brain and cognitive decline. Journal of American Medical Association. 283; 2000:1571.
- Chen GQ, Chen KS, Knox J, Inglis J, Bernard A, Martin SJ, et al. A learning deficit related to age and β-amyloid plaques in a mouse model of Alzheimer's disease. Nature. 408;2000:975.
- The National Institute on Aging and Reagan Institute Working Group on Diagnostic Criteria for the Neuropathological Assessment of Alzheimer's disease. In Consensus recommendations for the post-mortem diagnosis of Alzheimer's disease. Neurobiology Aging.; 18;1997: S1-S2.
- Lewis J, Dickson DW, Lin WL, Chisholm L, Corral A, Jones G, et al. Enhanced neurofibrillary degeneration in transgenic mice expressing mutant tau and APP. Science. 2001; 293:1487.
- Citron M. Alzheimer's disease: Treatments in discovery and development. Nature Neuroscience. 5;2002:1055.
- DeMattos RB, Bales KR, Cummins DJ, Dodart JC, Paul SM and Holtzman DM. Peripheral anti-Aβ antibody alters CNS and plasma Aβ clearance and decreases brain Aβ burden in a mouse model of Alzheimer's disease. Procedings of National Academy of Sciences USA. 98 ;2001:8850.
- Wang ZY, Chen Z. Acute promyelocytic leukemia: from highly fatal to highly curable. Blood.111;2008:2505.
- Miwako I, Kagechika H, Tamibarotene. Drugs Today (Barc). 43;2007:563.
- Altucci L, Leibowitz MD, Ogilvie KM, de Lera AR, Gronemeyer H. RAR and RXR modulation in cancer and metabolic disease. Nature Review Drug Discovery. 6;2007:793.
- Oikawa T, Okayasu I, Ashino H, Morita I, Murota S, Shudo K.Three novel synthetic retinoids, Re 80, Am 580 and Am 80, all exhibit anti-angiogenic activity in vivo. European Journal of Pharmacology. 249;1993:113-116.
- Sardana K, Sehgal VN. Retinoids: fascinating up-and-coming scenario. Journal of Dermatology. 30;2003:355.
- Ishibashi Y. Clinical Effect of Am-80 Ointment on Psoriasis and Pustulosis Palmaris et Plantaris (Phase Study). RinshouIyaku.11;1995:747.
- Nickoloff BJ. Cracking the cytokine code in psoriasis. Nature Medicine.13;2007:242.
- Kuwabara K, Shudo K, Hori Y. Novel synthetic retinoic acid inhibits rat collagen arthritis and differentially affects serum immunoglobulin subclass levels. FEBS Letter.378;1996:53.
- Nagai H, Matsuura S, Bouda K, Takaoka Y, Wang T, Niwa S. Effect of Am-80, a synthetic derivative of retinoid, on experimental arthritis in mice. Pharmacology. 58;1999:101.
- Beehler BC, Brinckerhoff CE, Ostrowski J. Selective retinoic acid receptor ligands for rheumatoid arthritis.Current Opinion Investigation Drugs.5;2004:1153.
- Wiegman PJ, Barry WL, McPherson JA, McNamara CA, Gimple LW, Sanders JM. All-trans-retinoic acid limits restenosis after balloon angioplasty in the focally atherosclerotic rabbit: A favorable effect on vessel remodeling. Arteriosclerosis, Thrombosis and Vascular Biology. 20;2000:89.
- Fujiu K, Manabe I, Ishihara A, Oishi Y, Iwata H, Nishimura G. Synthetic retinoid Am80 suppresses smooth muscle phenotypic modulation and in-stent neointima formation by inhibiting KLF5.Circulation Research. 97;2005:1132.
- Sato M, Shudo K, Hiragun A. Functional studies of newly synthesized benzoic acid derivatives: identification of highly potent retinoid-like activity. Journal of Cell Physiology. 135;1988:179.
- Massaro GD, Massaro D. Retinoic acid treatment abrogates elastase-induced pulmonary emphysema in rats. Nature Medicine. 3;1997:675.
- Nishikiori N, Osanai M, Chiba H, Kojima T, Mitamura Y, Ohguro H. Glial cell-derived cytokines attenuate the breakdown of vascular integrity in diabetic retinopathy. Diabetes. 56;2007:1333.
- Nishikiori N, Osanai M, Chiba H, Kojima T, Ohguro H, Sawada N. Inhibitory effects of retinoic acid receptor alpha stimulants on murine cataractogenesis through suppression of deregulated calpains. Investigative Ophthalmology and Visual Science.48;2007:2224.
- Miwako I, Shudo K. Oral administration of synthetic retinoid Am80 inhibits the development of type 1 diabetes in NOD mice. Biological and Pharmceutical Bulletin. 32(1);2009:157-159
- Osanai M, Nishikiori N, Murata M, Chiba H, Kojima T, Sawada N. Cellular retinoic acid bioavailability determines epithelial integrity: Role of retinoic acid receptor alpha agonists in colitis. Molecular Pharmacology.71;2007:250.
- Phase Study of RR110 in Patients with Active Crohn's Disease [online]. Available from URL: http://clinicaltrials.gov/ct2/show/ NCT00417391 [Accessed 2008 July 7]
- Standeven AM, Teng M, Chandraratna RA. Lack of involvement of retinoic acid receptor alpha in retinoid-induced skin irritation in hairless mice. Toxicology Letter.92;1997:231.
- Iulianella A, Lohnes D. Contribution of retinoic acid receptor gamma to retinoid-induced craniofacial and axial defects. Developmental Dynamics.209;1997: 92-104.
- Look J, Landwehr J, Bauer F, Hoffmann AS, Bluethmann H, LeMotte P. Marked resistance of RAR gamma-deficient mice to the toxic effects of retinoic acid. American Journal of Physiology. 269;1995: E91-98.
- Reczek PR, Ostrowski J, Yu KL, Chen S, Hammer L, Roalsvig T, et al. Role of retinoic acid receptor gamma in the Rhino mouse and rabbit irritation models of retinoid activity. Skin Pharmacology. 8;1995: 292-299.
- Misner DL, Jacobs S, Shimizu Y, de Urquiza AM, Solomin L, Perlmann T, et al. Vitamin A deprivation results in reversible loss of hippocampal long-term synaptic plasticity. Procedings of National Academy of Sciences USA. 98;2001: 11714- 11719.
- Mingaud F, Mormede C, Etchamendy N, Mons N, Niedergang B, Wietrzych M, et al. Retinoid hyposignaling contributes to aging-related decline in hippocampal function in shortterm/ working memory organization and long-term declarative memory encoding in mice. Journal of Neuroscience.28;2008: 279-291.
- Goodman AB, Pardee AB. Evidence for defective retinoid transport and function in late onset Alzheimer's disease. Procedings of National Academy of Sciences USA..100;2003: 2901-2905.
- Goodman AB. Retinoid receptors, transporters, and metabolizers as therapeutic targets in late onset Alzheimer disease. Journal of Cellular Physiology. 209;2006:598-603.
- Farooqui AA, Antony P, Ong Wei-Yi, Horrocks LA, Freysz L. Retinoic acid-mediated phospholipase A2 signaling in the nucleus. Brain research reviews. 45;2004: 179-195.
- Kobayashi M, Matsuoka I, Kurihara K. Cholinergic differentiation of cultured sympathetic neurons induced by retinoic acid. Induction of choline acetyltransferase-mRNA and suppression of tyrosine hydroxylase-mRNA levels. FEBS Letter.337;1994: 259-264.
- Pedersen WA, Berse B, Schuler U, Wainer BH, Blusztajn JK. All-trans- and 9-cis-retinoic acid enhance the cholinergic properties of a murine septal cell line: evidence that the effects are mediated by activation of retinoic acid receptor-alpha. Journal of Neurochemistry. 65;1995: 50-58.
- Berse B, Blusztajn JK. Coordinated up-regulation of choline acetyl-transferase and vesicular acetylcholine transporter gene expression by the retinoic acid receptor alpha, cAMP, and leukemia inhibitory factor/ciliary neurotrophic factor signaling pathways in a murine septal cell line. Journal of Biological Chemistry. 270;1995: 22101-22104.
- Samad TA, Krezel W, Chambon P, Borrelli E. Regulation of dopaminergic pathways by retinoids: activation of the D2 receptor promoter by members of the retinoic acid receptorretinoid X receptor family. Procedings of National Academy of Sciences USA. 94;1997:14349-14354.
- Husson M, Enderlin V, Delacourte A, Ghenimi N, Alfos S, Pallet V, et al. Retinoic acid normalizes nuclear receptor mediated hypoexpression of proteins involved in beta-amyloid deposits in the cerebral cortex of vitamin A deprived rats. Neurobiology of Disease. 23;2006:1-10.
- Corcoran J P, So P L, Maden M. Disruption of the retinoid signalling pathway causes a deposition of amyloid beta in the adult rat brain. European Journal of Neuroscience.20;2004: 896-902.
- Prinzen C, Muller U, Endres K, Fahrenholz F, Postina R. Genomic structure and functional characterization of the human ADAM10 promoter. FASEB J. 19;2005:1522-1524.
- Fahrenholz F, Postina R. Alpha-secretase activation--an approach to Alzheimer's disease therapy. Neurodegenerative Disease. 3; 2006:255-261.
- Fahrenholz F. Alpha-secretase as a therapeutic target. Current Alzheimer Research.4;2007: 412-417.
- Britschgi M, Wyss-Coray T. Immune cells may fend off Alzheimer disease. Nature Medicine.13;2007: 408-409.
- El Khoury J, Toft M, Hickman SE, Means TK, Terada K, Geula C, et al. Ccr2 deficiency impairs microglial accumulation and accelerates progression of Alzheimer-like disease. Nature Medicine.13;2007:432-438.
- Tehranian R, Hasanvan H, Iverfeldt K, Post C, Schultzberg M. Early induction of interleukin-6 mRNA in the hippocampus and cortex of APPsw transgenic mice Tg2576. Neuroscience Letter.301;2001:54-58.
- Bhojak TJ, DeKosky ST, Ganguli M, Kamboh MI. Genetic polymorphisms in the cathespin D and interleukin-6 genes and the risk of Alzheimer's disease. Neuroscience Letter.288;2000: 21-24.
- Shibata N, Ohnuma T, Takahashi T, Baba H, Ishizuka T, Ohtsuka M, et al. Effect of IL-6 polymorphism on risk of Alzheimer disease: genotype-phenotype association study in Japanese cases. American Journal of Medical Genetics.114; 2002: 436-439.
- Ivanov, II, McKenzie BS, Zhou L, Tadokoro CE, Lepelley A, Lafaille JJ, et al. The orphan nuclear receptor RORgammat directs the differentiation program of proinflammatory IL-17+ T elper cells. Cell.126;2006:1121-1133.
- Schwab C, McGeer PL. Inflammatory aspects of Alzheimer disease and other neurodegenerative disorders. Journal of Alzheimers Disease.13;2008: 359-369.
- Miklossy J. Chronic inflammation and amyloidogenesis in Alzheimer's disease -- role of spirochetes. Journal of Alzheimers Disease.13;2008: 381-391.
- Itzhaki RF, Wozniak MA. Herpes simplex virus type 1 in Alzheimer's disease: the enemy within. Journal of Alzheimers Disease. 13; 2008: 393-405.
- Balin BJ, Little CS, Hammond CJ, Appelt DM, Whittum- Hudson JA, Gerard HC, et al. Chlamydophila pneumoniae and the etiology of late-onset Alzheimer's disease. Journal of Alzheimers Disease.13; 2008: 371-380.
- Perry VH, Cunningham C, Holmes C. Systemic infections and inflammation affect chronic neurodegeneration. Nature Review Immunology. 7; 2007: 161-167.
- Doty RL. The olfactory vector hypothesis of neurodegenerative disease: is it viable? Annals Neurology. 63; 2008: 7-15.
- Ross GW, Petrovitch H, Abbott RD, Tanner CM, Popper J, Masaki K, et al. Association of olfactory dysfunction with risk for future Parkinson's disease. Annals Neurology.63; 2008: 167-173.
- Tabert MH, Liu X, Doty RL, Serby M, Zamora D, Pelton GH, et al. A 10-item smell identification scale related to risk for Alzheimer's disease. Annals Neurology. 58; 2005:155-160.
- Rawson NE, LaMantia AS. Once and again: retinoic acid signaling in the developing and regenerating olfactory pathway. Journal of Neurobiology. 66;2006: 653-676.
- Rawson NE, LaMantia AS. A speculative essay on retinoic acid regulation of neural stem cells in the developing and aging olfactory system. Experimental Gerontology. 42;2007:46-53.
- Mey J, Morassutti DJ. Brook G, Liu RH, Zhang YP, Koopmans G, et al. Retinoic acid synthesis by a population of NG2- positive cells in the injured spinal cord. European Journal of Neuroscience. 21; 2005: 1555-1568.
- Mey J. New therapeutic target for CNS injury? The role of retinoic acid signaling after nerve lesions. Journal of Neurobiology. 66; 2006: 757-779.
- Kern J, Schrage K, Koopmans GC, Joosten EA, McCaffery P, Mey J. Characterization of retinaldehyde dehydrogenase-2 induction in NG2-positive glia after spinal cord contusion injury. International Journal of Developmental Neuroscience. 25;2007: 7-16.
- Zhelyaznik N, Mey J. Regulation of retinoic acid receptors alpha, beta and retinoid X receptor alpha after sciatic nerve injury. Neuro-science.141;2006: 1761-1774.
- Mey J, Schrage K, Wessels I, Vollpracht-Crijns I. Effects of inflammatory cytokines IL-1beta, IL-6, and TNF alpha on the intracellular localization of retinoid receptors in Schwann cells. Glia.; 55;2007: 152-164.
- Maden M, Hind M. Retinoic acid, a regeneration-inducing molecule.Developmental Dynamics.226;2003: 237-244.
- Vergara MN, Arsenijevic Y, Del Rio-Tsonis K. CNS regeneration: a morphogen's tale. Journal of Neurobiology.64; 2005: 491-507.
- Strickland S, Mahdavi V. The induction of differentiation in teratocarcinoma stem cells by retinoic acid. Cell.15; 1978: 393- 403.
- Lane MA, Bailey SJ. Role of retinoid signalling in the adult brain. Progress in Neurobiology.75; 2005:275-280.
- Chiang MY, Misner D, Kempermann G, Schikorski T, Giguere V, Sucov HM. An essential role for retinoid receptors RARbeta and RXR gamma in long-term potentiation and depression. Neuron. 21;1998:1353.
- Etchamendy N, Enderlin V, Marighetto A, Vouimba RM, Pallet V, Jaffard R. Alleviation of a selective age-related relational memory deficit in mice by pharmacologically induced normalization of brain retinoid signaling. Journal of Neuroscience. 21;2001:6423-6428.
- Etchamendy N, Enderlin V, Marighetto A, Pallet V, Higueret P, Jaffard R. Vitamin A deficiency and relational memory deficit in adult mice: relationships with changes in brain retinoid signalling. Behavioural Brain Research.145;2003:37.
- Huang JTJ, Leweke FM, Oxley D, Wang L, Harris N et,al. Disease Biomarkers in Cerebrospinal Fluid of Patients with First-Onset Psychosis PLoS Med. 2006; 3: e428 Available from: www.ncbi.nlm.nih.gov/pubmed/17090210
- Brouillette J, Quirion R. Transthyretin: A key gene involved in the maintenance of memory capacities during aging. Neurobiology Aging. 29;2008:1721.
- Monaco HL. The transthyretin-retinol-binding protein complex. Biochimica et Biophysica Acta. 1482;2000:65.
- Merched A, Serot JM, Visvikis S, Aguillon D, Faure G, Siest G. Apolipoprotein E, transthyretin and actin in the CSF of Alzheimer's patients: relation with the senile plaques and cytoskeleton biochemistry. FEBS Letter.425;1998:225.
- Schwarzman AL, Gregori L, Vitek MP, Lyubski S, Strittmatter WJ, Enghilde JJ, Transthyretin sequesters amyloid beta protein and prevents amyloid formation. Proceedings of National Academy of Sciences USA. 91;1994:8368.
- Carro E, Trejo JL, Gomez-Isla T, LeRoith D, Torres-Aleman I. Serum a insulin-like growth factor I regulates brain amyloidbeta levels. Nature Medicine. 8;2002:1390.
- Ashtavarga:Eight Miraculous Herbs
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Authors
V. V. Buchake
1,
R. S. Bachhav
2,
R. B. Rode
2,
S. S. Aher
2,
A. P. Muthal
2,
B. V. Dhokchawle
2,
R. B. Saudagar
2
Affiliations
1 KCT’s R. G. Sapkal College of Pharmacy, Anjaneri, Nashik – 422 212, IN
2 KCT’s R. G. Sapkal College of Pharmacy, Anjaneri, Nashik – 422 212 (MS), IN
1 KCT’s R. G. Sapkal College of Pharmacy, Anjaneri, Nashik – 422 212, IN
2 KCT’s R. G. Sapkal College of Pharmacy, Anjaneri, Nashik – 422 212 (MS), IN