CENTRAL AND SYSTEMIC OXYTOCIN RELEASE - A STUDY OF THE PARAVENTRICULAR NUCLEUS BY INVIVO MICRODIALYSIS

被引：61

作者：

HATTORI, T ^{[1
]}

SUNDBERG, DK ^{[1
]}

MORRIS, M ^{[1
]}

机构：

[1] WAKE FOREST UNIV, BOWMAN GRAY SCH MED, DEPT PHYSIOL & PHARMACOL, MED CTR BLVD, WINSTON SALEM, NC 27103 USA

来源：

BRAIN RESEARCH BULLETIN | 1992年 / 28卷 / 02期

关键词：

MICRODIALYSIS; OXYTOCIN; OSMOTIC STIMULATION; GLUTAMATE; PARAVENTRICULAR NUCLEUS;

D O I：

10.1016/0361-9230(92)90187-3

中图分类号：

Q189 [神经科学];

学科分类号：

071006 ;

摘要：

The mechanisms controlling central and systemic oxytocin (OT) release were examined using in vivo microdialysis of the paraventricular (PVN) region. Dialysate and plasma samples were collected from conscious male rats and stimuli were administered via the dialysate fluid. Characterization studies showed that microdialysis was a viable technique for the study of peptide secretion in the conscious animal. OT was consistently detected in the PVN dialysate and a partially purified extract crossreacted in parallel fashion with the synthetic peptide. In vitro studies showed that peptide recovery was positively correlated with the pore size of the dialysis membrane and that there was an inverse relationship between flow rate and recovery. Hypertonic saline administered centrally caused an increase in dialysate and plasma oxytocin while the intravenous injection affected only plasma oxytocin. The excitatory amino acid, glutamate (0.05-0.5 M), caused an increase in plasma, but not dialysate oxytocin, while depolarization with potassium chloride (0.05-0.15 M) had no significant effects. Histological examination showed that the dialysis probe was located in the rostral, lateral PVN. Our results show that in vivo microdialysis provides a method for the delivery of drugs into specific brain regions as well as a useful technique for the evaluation of in vivo neuropeptide release.

引用

页码：257 / 263

页数：7

共 43 条

[1] STRIATAL DOPAMINE RELEASE AND METABOLISM IN SINOAORTIC-DENERVATED RATS BY INVIVO MICRODIALYSIS
ALEXANDER, N
NAKAHARA, D
OZAKI, N
KANEDA, N
SASAOKA, T
IWATA, N
NAGATSU, T
[J]. AMERICAN JOURNAL OF PHYSIOLOGY, 1988, 254 (02): : R396 - R399
[2] AN IMMUNOCHEMICAL ANALYSIS OF OXYTOCIN AND VASOPRESSIN PROHORMONE PROCESSING INVIVO
ALTSTEIN, M
WHITNALL, MH
HOUSE, S
KEY, S
GAINER, H
[J]. PEPTIDES, 1988, 9 (01) : 87 - 105
[3] NOREPINEPHRINE APPLIED IN THE PARAVENTRICULAR HYPOTHALAMIC NUCLEUS STIMULATES VASOPRESSIN RELEASE
BENETOS, A
GAVRAS, I
GAVRAS, H
[J]. BRAIN RESEARCH, 1986, 381 (02) : 322 - 326
[4] BRAIN MICRODIALYSIS
BENVENISTE, H
[J]. JOURNAL OF NEUROCHEMISTRY, 1989, 52 (06) : 1667 - 1679
[5] GABA AGONISTS INHIBIT CENTRAL SODIUM-INDUCED VASOPRESSIN-DEPENDENT INCREASES IN ARTERIAL-PRESSURE
BRENNAN, TJ
MORRIS, M
HAYWOOD, JR
[J]. EUROPEAN JOURNAL OF PHARMACOLOGY, 1984, 103 (3-4) : 223 - 234
[6] CENTRAL OXYTOCIN SYSTEMS MAY MEDIATE A CARDIOVASCULAR-RESPONSE TO ACUTE STRESS IN RATS
CALLAHAN, MF
KIRBY, RF
CUNNINGHAM, JT
ESKRIDGESLOOP, SL
JOHNSON, AK
MCCARTY, R
GRUBER, KA
[J]. AMERICAN JOURNAL OF PHYSIOLOGY, 1989, 256 (05): : H1369 - H1377
[7] CALLAHAN MF, 1990, SOC NEUR ABSTR, V16, P129
[8] ROLE OF CENTRAL OXYTOCIN IN THE CONTROL OF THE MILK EJECTION REFLEX
FREUNDMERCIER, MJ
MOOS, F
POULAIN, DA
RICHARD, P
RODRIGUEZ, F
THEODOSIS, DT
VINCENT, JD
[J]. BRAIN RESEARCH BULLETIN, 1988, 20 (06) : 737 - 741
[9] DISSOCIATION OF OXYTOCIN, VASOPRESSIN AND CORTICOTROPIN SECRETION DURING DIFFERENT TYPES OF STRESS
GIBBS, DM
[J]. LIFE SCIENCES, 1984, 35 (05) : 487 - 491
[10] HATTON GI, 1985, BRAIN RES BULL, V14, P123, DOI 10.1016/0361-9230(85)90072-3

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