Sexual metabolic differences in the rat limbic brain

被引:3
|
作者
Arias, Natalia [1 ]
Moran, Javier [1 ]
Conejo, Nelida [1 ]
Arias, Jorge L. [1 ]
机构
[1] Univ Oviedo, Oviedo 33003, Spain
来源
PSICOTHEMA | 2013年 / 25卷 / 04期
关键词
Estrogen; oxidative metabolism; functional cerebral asymmetry; Papez circuit; rat; CYTOCHROME-OXIDASE ACTIVITY; MAMMILLARY BODIES; FEMALE RATS; ASYMMETRY; MEMORY; LATERALIZATION; SYSTEM; CORTEX; INVOLVEMENT; CLONING;
D O I
10.7334/psicothema2013.100
中图分类号
B84 [心理学];
学科分类号
04 ; 0402 ;
摘要
Background: There is actually limited evidence about the influence of estrogens on neuronal energy metabolism or functional cerebral asymmetry. In order to evaluate this relationship, eight male and sixteen female adult Wistar rats, divided into estrus and diestrus phase, were used to measure basal neuronal metabolic activity in some of the structures involved in the Papez circuit, using cytochrome c oxidase (C.O.) histochemistry. Method: We used C.O. histochemistry because cytochrome oxidase activity can be considered as a reliable endogenous marker of neuronal activity. Results: We found higher C.O. activity levels in diestrus as compared to estrus and male groups in the prefrontal cortex and thalamus. Conversely, neuronal oxidative metabolism was significantly higher in estrus than in diestrus and male groups in the dorsal and ventral hippocampus (CA1 and CA3) and in the mammillary bodies. However, no hemispheric functional lateralization was found in estrus, diestrus or male groups by CO. activity. Conclusions: These results suggest a modulatory effect of estrogens on neuronal oxidative metabolism.
引用
收藏
页码:461 / 467
页数:7
相关论文
共 50 条
  • [21] Neuropilin-2 is overexpressed in the rat brain after limbic seizures
    Shimakawa, S
    Suzuki, S
    Miyamoto, R
    Takitani, K
    Tanaka, K
    Tanabe, T
    Wakamiya, E
    Nakamura, F
    Kuno, M
    Matsuura, S
    Watanabe, Y
    Tamai, H
    BRAIN RESEARCH, 2002, 956 (01) : 67 - 73
  • [22] UPTAKE OF CORTICOSTERONE BY RAT BRAIN AND ITS CONCENTRATION BY CERTAIN LIMBIC STRUCTURES
    MCEWEN, BS
    WEISS, JM
    SCHWARTZ, LS
    BRAIN RESEARCH, 1969, 16 (01) : 227 - +
  • [23] SOMATOSTATIN CONNECTIONS BETWEEN THE HYPOTHALAMUS AND THE LIMBIC SYSTEM OF THE RAT-BRAIN
    PALKOVITS, M
    TAPIAARANCIBIA, L
    KORDON, C
    EPELBAUM, J
    BRAIN RESEARCH, 1982, 250 (02) : 223 - 228
  • [24] Sex differences in temporo-limbic and frontal brain volumes of healthy adults
    Gur, RC
    Gunning-Dixon, F
    Bilker, WB
    Gur, RE
    CEREBRAL CORTEX, 2002, 12 (09) : 998 - 1003
  • [25] TOPOGRAPHY OF LIMBIC DOPAMINE UPTAKE SITES IN HUMAN AND RAT-BRAIN
    LITTLE, KY
    CARROLL, FI
    CASSIN, BJ
    BIOLOGICAL PSYCHIATRY, 1994, 35 (09) : 690 - 690
  • [26] BIOTRANSFORMATION OF OXYTOCIN BY SYNAPTOSOMAL PLASMA-MEMBRANES OF RAT LIMBIC BRAIN
    BURBACH, JPH
    DEKLOET, ER
    DEWIED, D
    ACTA ENDOCRINOLOGICA, 1979, 91 : 250 - 250
  • [27] METABOLIC EFFECTS OF AZASERINE IN RAT BRAIN
    HELD, I
    WELLS, W
    KOENIG, H
    JOURNAL OF NEUROCHEMISTRY, 1969, 16 (04) : 537 - &
  • [28] DEVELOPMENT OF METABOLIC COMPARTMENTATION IN RAT BRAIN
    PATEL, AJ
    BALAZS, R
    BIOCHEMICAL JOURNAL, 1969, 111 (03) : P17 - &
  • [29] Brain Metabolic DNA in Rat Cytoplasm
    Giuditta, Antonio
    Rutigliano, Bruno
    MOLECULAR NEUROBIOLOGY, 2018, 55 (09) : 7476 - 7486
  • [30] Brain Metabolic DNA in Rat Cytoplasm
    Antonio Giuditta
    Bruno Rutigliano
    Molecular Neurobiology, 2018, 55 : 7476 - 7486
12345