Impaired long-term potentiation in obese zucker rats: possible involvement of presynaptic mechanism.
about
Food for thought: the role of appetitive peptides in age-related cognitive declineMaintaining brain health by monitoring inflammatory processes: a mechanism to promote successful agingForebrain glutamatergic neurons mediate leptin action on depression-like behaviors and synaptic depressionLeptin induces hippocampal synaptogenesis via CREB-regulated microRNA-132 suppression of p250GAP.Role of standardized grape polyphenol preparation as a novel treatment to improve synaptic plasticity through attenuation of features of metabolic syndrome in a mouse model.Obesity/hyperleptinemic phenotype adversely affects hippocampal plasticity: effects of dietary restrictionCentral adiposity is negatively associated with hippocampal-dependent relational memory among overweight and obese children.Diabetes as a chronic metabolic stressor: causes, consequences and clinical complications.High fat diet intake during pre and periadolescence impairs learning of a conditioned place preference in adulthood.Leptin and its role in hippocampal synaptic plasticityObese rats with deficient leptin signaling exhibit heightened sensitivity to olfactory food cues.Caffeine prevents weight gain and cognitive impairment caused by a high-fat diet while elevating hippocampal BDNF.Leptin, mild cognitive impairment, and dementia among elderly women.The As and Ds of stress: metabolic, morphological and behavioral consequences.Interleukin-6 covaries inversely with hippocampal grey matter volume in middle-aged adults.A look inside the diabetic brain: Contributors to diabetes-induced brain aging.Serum leptin level and cognition in the elderly: Findings from the Health ABC Study.Brain insulin signaling: a key component of cognitive processes and a potential basis for cognitive impairment in type 2 diabetes.Cellular and metabolic alterations in the hippocampus caused by insulin signalling dysfunction and its association with cognitive impairment during aging and Alzheimer's disease: studies in animal models.Are microRNAs the Molecular Link Between Metabolic Syndrome and Alzheimer's Disease?Prior activation of inositol 1,4,5-trisphosphate receptors suppresses the subsequent induction of long-term potentiation in hippocampal CA1 neuronsShort-lived diabetes in the young-adult ZDF rat does not exacerbate neuronal Ca(2+) biomarkers of aging.Leptin Induces a Novel Form of NMDA Receptor-Dependent LTP at Hippocampal Temporoammonic-CA1 Synapses(1,2,3).Childhood and adolescent obesity and long-term cognitive consequences during aging.Leptin enhances NMDA-induced spinal excitation in rats: A functional link between adipocytokine and neuropathic pain.Neurocognitive performances of visuospatial attention and the correlations with metabolic and inflammatory biomarkers in adults with obesity.CNS Targets of Adipokines.Hyperinsulinemia in rats causes impairment of spatial memory and learning with defects in hippocampal synaptic plasticity by involvement of postsynaptic mechanisms.Changes in hippocampal synaptic functions and protein expression in monosodium glutamate-treated obese mice during development of glucose intolerance.Impairment of fear-conditioning responses and changes of brain neurotrophic factors in diet-induced obese mice.Berberine chloride improved synaptic plasticity in STZ induced diabetic rats.Increased Adiposity as a Potential Risk Factor for Lower Academic Performance: A Cross-Sectional Study in Chilean Adolescents from Low-to-Middle Socioeconomic Background
P2860
Q27009988-E096A7CF-6E4B-4EC2-A8E5-11E85DA3FCD6Q28730725-3679746F-8BFC-4B67-B1B3-264229261861Q30508512-42D82986-2126-4B1D-8E7C-22C04D98FB64Q33821611-85A8EA48-6EB3-49E5-86AF-0FB8A3CBD226Q34365458-C51E96BF-C7C7-4ADC-BCFF-2AB457731A0EQ34990300-9DAE0D4C-9E2C-44F2-BA11-037EA5525543Q35019983-A1D71E11-B493-4DBC-8E55-1848F9940734Q35032598-39405300-3A14-40DD-9345-9DFDE172303FQ35137284-9F138A0A-83D4-44B3-ABA5-194BBBC7DFF4Q36470247-1C29AD91-A4CD-4B52-9799-DC64D370D69FQ36626090-0BBA9496-234F-4C2E-A6B7-0501C120F619Q36650968-B863D72F-FE46-4EF2-AE67-5FC24523F294Q36686873-D22CD2B8-E7D3-4C1B-9B30-8A118DAFDCB5Q36710935-EC2DBB27-29ED-4286-8E31-C2CDFC08E38BQ36925067-A68C2E80-44D2-4FAE-BF3C-B1BACDCE51A6Q37330771-E95A3C50-185D-4F7A-BC5D-F333C0306120Q37612838-0F021EAE-94E1-4916-A2E7-45F12FAAFF79Q37930196-39F0BD7D-D458-4C29-823A-0A4E0FA6B24FQ38182056-7F239193-20DD-4CE7-A622-97BF818B8190Q38481462-936B2FAF-B248-437C-81A4-26D4486892FDQ40347361-C03D75A1-E250-4716-BB24-43A7E815CDD5Q40373443-4E31A816-5844-4BBC-B913-48786C30A8E4Q40434201-0FDC2AA8-7759-449A-84FD-96EB7713E6F2Q42185326-B42DC048-859B-4D00-BCD3-C579FBB5380DQ42736961-97587EE2-8007-431E-A9E2-550FC2C44C26Q47688481-7EE024CE-B935-45D9-AB91-40A915758722Q47978333-5F5B3021-EA4E-406A-B517-854A42C1CDBDQ48181763-FEA3C039-9890-420E-858D-DA5C2C79238FQ48242168-AF7FA827-2A33-4BB8-9561-465C1263DFC1Q48577609-BC24008A-A08B-407C-BE0B-6E17FC037B37Q50746082-5A8B0814-71D9-4AD3-A65D-8BEF1D041019Q58725492-D0CF852F-F830-4993-BF2C-1EB1882D76F8
P2860
Impaired long-term potentiation in obese zucker rats: possible involvement of presynaptic mechanism.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Impaired long-term potentiatio ...... ment of presynaptic mechanism.
@en
Impaired long-term potentiatio ...... ment of presynaptic mechanism.
@nl
type
label
Impaired long-term potentiatio ...... ment of presynaptic mechanism.
@en
Impaired long-term potentiatio ...... ment of presynaptic mechanism.
@nl
prefLabel
Impaired long-term potentiatio ...... ment of presynaptic mechanism.
@en
Impaired long-term potentiatio ...... ment of presynaptic mechanism.
@nl
P2093
P1433
P1476
Impaired long-term potentiatio ...... ment of presynaptic mechanism.
@en
P2093
P304
P356
10.1016/S0306-4522(03)00297-5
P407
P577
2003-01-01T00:00:00Z