PERFORM Publications

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Title		Authors	PubMed ID
1	Combined effects of the contraceptive hormones, ethinyl estradiol and levonorgestrel, on the use of place and response memory in gonadally-intact female rats	Lacasse JM; Boulos V; Fisher C; Hamilton S; Heron M; Mac Cionnaith CE; Peronace V; Tito N; Brake WG;	36403510 PSYCHOLOGY
2	Modeling hormonal contraception in female rats: a framework for studies in behavioral neurobiology	Lacasse JM; Gomez-Perales E; Brake WG;	35952797 PSYCHOLOGY
3	Estrogen receptors observed at extranuclear neuronal sites and in glia in the nucleus accumbens core and shell of the female rat: Evidence for localization to catecholaminergic and GABAergic neurons	Almey A; Milner TA; Brake WG;	35397175 CSBN
4	Progesterone rapidly alters the use of place and response memory during spatial navigation in female rats	Lacasse JM; Patel S; Bailey A; Peronace V; Brake WG;	35158200 PSYCHOLOGY
5	Depression, Estrogens, and Neuroinflammation: A Preclinical Review of Ketamine Treatment for Mood Disorders in Women	Gagne C; Piot A; Brake WG;	35115970 CSBN
6	The priming effect of food persists following blockade of dopamine receptors.	Evangelista C, Hantson A, Shams WM, Almey A, Pileggi M, Voisard JR, Boulos V, Al-Qadri Y, Gonzalez Cautela BV, Zhou FX, Duchemin J, Habrich A, Tito N, Koumrouyan RA, Patel S, Lorenc V, Gagne C, El Oufi K, Shizgal P, Brake WG	31350860 CSBN
7	Estrogen receptor α and G-protein coupled estrogen receptor 1 are localized to GABAergic neurons in the dorsal striatum.	Almey A, Milner TA, Brake WG	27080432 PSYCHOLOGY
8	High estrogen and chronic haloperidol lead to greater amphetamine-induced BOLD activation in awake, amphetamine-sensitized female rats.	Madularu D, Kulkarni P, Yee JR, Kenkel WM, Shams WM, Ferris CF, Brake WG	27154458 CSBN
9	Modulation of spatial and response strategies by phase of the menstrual cycle in women tested in a virtual navigation task.	Hussain D, Hanafi S, Konishi K, Brake WG, Bohbot VD	27213559 PSYCHOLOGY
10	17β-Estradiol infusions into the dorsal striatum rapidly increase dorsal striatal dopamine release in vivo.	Shams WM, Sanio C, Quinlan MG, Brake WG	27256507 PSYCHOLOGY
11	Interactions between estradiol and haloperidol on perseveration and reversal learning in amphetamine-sensitized female rats.	Almey A, Arena L, Oliel J, Shams WM, Hafez N, Mancinelli C, Henning L, Tsanev A, Brake WG	28062232 PSYCHOLOGY
12	17β-estradiol locally increases phasic dopamine release in the dorsal striatum.	Shams WM, Cossette MP, Shizgal P, Brake WG	29175028 CSBN
13	Modulatory effect of 17-β estradiol on performance of ovariectomized rats on the Shock-Probe test.	Gervais NJ, Jacob S, Brake WG, Mumby DG	24768650 PSYCHOLOGY
14	Changes in brain volume in response to estradiol levels, amphetamine sensitization and haloperidol treatment in awake female rats.	Madularu D, Kulkarni P, Ferris CF, Brake WG	26032742 CSBN
15	Attenuation of dendritic spine density in the perirhinal cortex following 17β-Estradiol replacement in the rat.	Gervais NJ, Mumby DG, Brake WG	26104963 CSBN
16	Ovarian steroids alter dopamine receptor populations in the medial preoptic area of female rats: implications for sexual motivation, desire, and behaviour.	Graham MD, Gardner Gregory J, Hussain D, Brake WG, Pfaus JG	26536143 PSYCHOLOGY
17	High Oestradiol Replacement Reverses Response Memory Bias in Ovariectomised Female Rats Regardless of Dopamine Levels in the Dorsal Striatum.	Hussain D, Cossette MP, Brake WG	26929121 PSYCHOLOGY
18	Intra-perirhinal cortex administration of estradiol, but not an ERβ agonist, modulates object-recognition memory in ovariectomized rats.	Gervais NJ, Hamel LM, Brake WG, Mumby DG	27321161 PSYCHOLOGY
19	Varying the rate of intravenous cocaine infusion influences the temporal dynamics of both drug and dopamine concentrations in the striatum	Minogianis EA; Shams WM; Mabrouk OS; Wong JT; Brake WG; Kennedy RT; du Souich P; Samaha AN;	29757478 MASSSPEC

Title:	Attenuation of dendritic spine density in the perirhinal cortex following 17β-Estradiol replacement in the rat.
Authors:	Gervais NJ, Mumby DG, Brake WG
Link:	https://www.ncbi.nlm.nih.gov/pubmed/26104963?dopt=Abstract
Publication:
Keywords:
PMID:	26104963	Category:	Hippocampus	Date Added:	2019-05-31
Dept Affiliation:	CSBN 1 Department of Psychology, Center for Studies in Behavioral Neurobiology (CSBN), Concordia University, Montreal, Quebec, Canada.

Description:

Attenuation of dendritic spine density in the perirhinal cortex following 17ß-Estradiol replacement in the rat.

Hippocampus. 2015 Nov;25(11):1212-6

Authors: Gervais NJ, Mumby DG, Brake WG

Abstract

Intraperirhinal cortex infusion of 17-ß estradiol (E2) impairs object-recognition memory. However, it is not currently known whether this hormone modulates synaptic plasticity in this structure. Most excitatory synapses in the central nervous system are located on dendritic spines, and elevated E2 levels influence the density of these spines in several brain areas. The goal of the present study was to determine whether differences in dendritic spine density in the perirhinal cortex are observed following high E2 replacement in ovariectomized rats. The density of total spines, and mushroom-shaped (i.e. mature) spines were compared between a high E2 replacement (10 µg/kg/day, s.c.) and a no replacement condition. The perirhinal cortex is subdivided into Broadmann's area 35 and 36 and so group comparisons were made within each sub-region separately. High E2 replacement resulted in lower density of mushroom-shaped spines in area 35 relative to no replacement. There was no effect of high E2 replacement on dendritic spine density in area 36. These findings are consistent with the idea that higher E2 levels reduce dendritic spine density in area 35, which may result from spine shrinkage, or reduced synapse formation. This study provides preliminary evidence for a mechanism through which E2 may impair object-recognition memory.

PMID: 26104963 [PubMed - indexed for MEDLINE]

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