Autoradiographic Localization of Estradiol-Concentrating Cells in the Female Hamster Brain

Krieger, Monica Schoelch; Morrell, J. I.; Pfaff, Donald W.

doi:10.1159/000122626

Cited by 116 publications

(33 citation statements)

References 5 publications

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“…56), suggesting the possibility that downstream genomic effects of c-fos expression in the CMA might contribute to the prolonged time-course of attack priming. We also note the temporal coincidence in the report of Payne et al 43 that hypothalamic serotonin concentration in hamsters reaches a nadir 30 min after a fight.…”

Section: Time-course and Redirection Of Aggressive Arousalsupporting

confidence: 82%

“…Further evidence for internal mediation has been developed by interpolating different delay intervals between the priming and probe trials. These studies show that attack latencies remain reduced for at least 30 min after priming. 44 ,46,52 Finally, we note that the priming effect is not restricted to attacks on drug-treated intruders; priming two subjects before they are placed in the same arena hastens the onset of fighting between them.…”

mentioning

confidence: 56%

“…Several lines of evidence have implicated these subregions of the CMA in the control of sexual behavior; for example, these are the regions containing the highest density of sex steroid-concentrating neurons. 30 Our observations on the CMA's involvement in aggression have, in contrast, focused on the rostral and ventral aspects of the CMA. This contrast was highlighted by a preliminary study carried out in our laboratory using four pairs of animals selected from our population of aggressive, ovariectomized females.…”

Section: Aggression and Sexmentioning

confidence: 99%

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Attack priming in female Syrian golden hamsters is associated with a c-fos-coupled process within the corticomedial amygdala

et al. 1996

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Abstract-Allowing a resident hamster a single "priming" attack on a conspecific induces a transient aggressive arousal as indicated by a reduction in the latency and increase in the probability of attack on a second intruder presented within the next 30 min. We present two lines of evidence identifying the corticomedial amygdala as an important locus mediating this effect. (I) Attack priming significantly increases the number of neurons expressing immunocytochemically identified Fos protein in the corticomedial amygdala, but not elsewhere. Pursuit and biting of an inanimate object does not induce corticomedial amygdala c-fos expression of the same pattern or magnitude. The corticomedial amygdala contribution to the priming effect involves more than a non-specific arousal, since corticomedial amygdala c-fos expression does not correlate with locomotor activity, a standard indicator of such arousal. (2) Radiofrequency lesions of the corticomedial amygdala reduce aggression, the greatest reduction occurring with the more anterior lesions. Other behaviors, including a priming-like locomotor practice effect in a running wheel, are unaffected by corticomedial amygdala lesions. These findings suggest that attack priming is an aggression-specific effect resulting from a Fos-coupled change within neural circuitry of which the corticomedial amygdala is a part.From a theoretical point of view, these experiments suggest a new approach to the analysis of the mechanisms underlying aggressive behavior and the persistence of aggressive arousal. We present a sketch of a quantitative neurobehavioral model which relates attack probability to neural activation within the corticomedial amygdala. From a methodological viewpoint, these experiments extend the utility of mapping c-Ios expression as a technique for localizing endogenous, behavior-specific processes within the central nervous system. Copyright © 1996 !BRO. Published by Elsevier Science Ltd. appeared. To investigate the neural bases of such persisting aggressive arousal, we first developed a laboratory model of this phenomenon within the standard resident/intruder paradigm used in the study of rodent aggression. "Attack priming" a resident hamster by allowing it a single attack on a conspecific intruder introduced into its home cage reduces the latency and increases the probability of attack on a second, "probe" intruder. 47 ,52,53 This priming effect appears relatively specific in terms of both the responses it triggers and its effective stimuli.On the response side, we have found that other behaviors such as wheel running and eating (in female hamsters) and copulation (in male hamsters) are unaffected by priming 53 (Potegal, Hebert and Meyerhoff, unpublished observations). Experiment I of the present report examines the specificity of the stimulus by comparing the effects following attack priming to those following the detection, pursuit and biting of an inanimate object. Other experiments have eliminated a number of alternatives to the 869

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Section: Time-course and Redirection Of Aggressive Arousalsupporting

confidence: 82%

mentioning

confidence: 56%

Section: Aggression and Sexmentioning

confidence: 99%

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Attack priming in female Syrian golden hamsters is associated with a c-fos-coupled process within the corticomedial amygdala

et al. 1996

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“…Autoradiographic studies show that the distribution of oestrogen receptors in the brains of reflex ovulating species such as the ferret (Baum et al, 1986), mink (Morrell et al, 1977), cat (Rees & Michael, 1984) and rabbit (Anderson, 1975) resembles that of several spontaneously ovulating species, including the rat (Pfaff & Keiner, 1973), hamster (Krieger et al, 1976), guineapig (Sar & Stumpf, 1975) and monkey (Pfaff et ai, 1976). The distribution of GnRH neurones in the ferret (King & Anthony, 1984;Sisk et al, 1988), with numerous immunopositive cell bodies located in the mediobasal hypothalamus and pituitary stalk, more closely resembles that of the human (Barry, 1976) and monkey (Barry & Carette, 1975) than that of the rat (King et ai, 1982), in which most GnRH cell bodies are located more rostrally in the hypothalamus and preoptic area.…”

Section: Discussionmentioning

confidence: 99%

Evidence that oestrogen exerts an equivalent negative feedback action on LH secretion in male and female ferrets

Carroll

Baum²

1989

Reproduction

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“…Because many hypothalamic neurons possess a high number of binding sites for estrogens, the modulation of feeding behavior by a direct mechanism on hypothalamic neurons can be suggested (29). This was emphasized by the discovery that estrogens decrease melanin-concentrating hormone (MCH) expression in orexigenic neurons of the LHA (30, 31).…”

Section: Estrogens and Monoamines Modulate Food Intakementioning

confidence: 99%

Cybernetic principles in the systematic concept of hypothalamic feeding control

Fricke¹,

Lehmkuhl²,

Pfaff³

2006

eur j endocrinol

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Research on biological mechanisms of eating behavior and related disorders, such as obesity and anorexia nervosa, has become a large field of research in the last 15 years. With the discovery of peptides related to hypothalamic control of food intake (e.g. leptin and ghrelin) the search for the biological 'master key' of feeding control was renewed. As a result, mid-20th century biological concepts based on systematic and cybernetic thoughts fell into oblivion. This review highlights discoveries of hypothalamic-controlled feeding and eating behavior with a cybernetic and systematic perspective. Interestingly, older ideas of hypothalamic function offer possibilities for the incorporation of new molecular discoveries into systematic concepts of feeding behavior.

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Autoradiographic Localization of Estradiol-Concentrating Cells in the Female Hamster Brain

Cited by 116 publications

References 5 publications

Attack priming in female Syrian golden hamsters is associated with a c-fos-coupled process within the corticomedial amygdala

Attack priming in female Syrian golden hamsters is associated with a c-fos-coupled process within the corticomedial amygdala

Evidence that oestrogen exerts an equivalent negative feedback action on LH secretion in male and female ferrets

Cybernetic principles in the systematic concept of hypothalamic feeding control

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