TS Juss scite author profile

TS Juss

5Publications

119Citation Statements Received

105Citation Statements Given

How they've been cited

270

113

How they cite others

103

Affiliations

University of Bristol, University of Cambridge

Publications

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Mesencephalic Areas Controlling Pulsatile Oxytocin Release in the Suckled Rat

Juss¹,

Wakerley²

1981

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Experiments were performed on anaesthetized lactating rats to investigate the effects of radiofrequency lesions of the mesencephalon on the milk-ejection reflex. In lesioned and control rats, intramammary pressure recordings were used to estimate oxytocin release (number and relative amplitude of the intermittent milk-ejection responses) during a 3-h suckling test with ten pups. Bilateral lesions (diameter 0\m=.\5\p=n-\1\m=.\5 mm) of the lateral tegmentum (near the brachium of the inferior colliculus and medial geniculate body) seriously disrupted the milk-ejection reflex, reducing the number of rats ejecting milk (two out of ten v. all 12 controls, P<0\m=.\001)and the amount of oxytocin they released (1\m=.\35\m=+-\0\m=.\35(s.e.m.) v.15\m=.\52\m=+-\2\m=.\19 mu. for controls, P<0\m=.\05). Unilateral lesions of the lateral tegmentum also impaired milk ejection and, if the suckling stimulus was restricted only to the contralateral nipples, oxytocin release was virtually abolished. Bilateral lesions placed more medially in the intermediate tegmentum were far less disruptive (eight out of nine rats ejected milk), though the amount of oxytocin released in this group (8\ m=. \ 64\ m=+-\ 1\ m=. \ 88mu.) was still significantly (P<0\m=.\05) lower than controls. All rats with lesions of the central grey (nine) or ventral tegmentum (eight) displayed reflex milk ejection, as did those with multiple lesions of the tectum, central grey and ventral tegmentum (seven); in these three groups the amounts of oxytocin released (13\m=.\88\m=+-\2\m=.\68,13\ m=.\10\m=+-\1\m=.\90 and 11\m=.\04\m=+-\1\m=.\95mu. respectively) did not differ significantly from controls. Damage to the ventral tegmentum produced an irregular pattern of milk ejection characterized by occasional abnormally short (<2 min) milk-ejection intervals, though the overall number of responses in 3 h was less than that of controls (20\m=.\83\m=+-\1\m=.\82 v. 14\m=.\50\m=+-\1\m=.\30 mu. , P<0\m=.\05). In conclusion, these results delineate two mesencephalic areas of particular importance in the milk-ejection reflex: (a) the lateral tegmentum, which appears to be concerned with transmission of the suckling stimulus from the contralateral nipples and is indispensable for oxytocin release, and (b) the ventral tegmentum which, although not an essential component of the reflex, may contribute to the timing of the intermittent milk-ejection responses.

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Circadian nature of the photoperiodic clock in Japanese quail

1992

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The photoperiodic clock in quail (Coturnix coturnix japonica) is based upon a rhythm of photoinducibility (phi i) but the extent to which this rhythm is circadian remains unclear. Two types of experiment investigated this situation. In the first, gonadectomized quail were adapted to live in periods of darkness by training them on a schedule containing one short day and 3 days of darkness (SD/DD/DD/DD). They were then exposed to a single pulse of 6 or 10 h of light at different times across 3 days of darkness. The photoperiodic response, measured by the increase in LH secretion, showed clear rhythmicity, demonstrating unequivocally the circadian nature of phi i. The second set of experiments employed Nanda-Hamner cycles and varied the length of the photoperiod from 6 to 11 h. Responsiveness in a 36 h or a 60 h cycle was highly dependent upon the length of the photoperiod, something not predicted from theory. For instance, LD 6:30 was not photoperiodically inductive but LD 10:26 was clearly inductive. Close analysis of patterns of LH secretion indicated an unexpected delay before induction occurred and then a rapid rise to a stable level of induction. When LH was measured in every pulse under LD 10:26 there was no evidence that LH levels alternately increased and decreased. This is not consistent with the simplest interpretation of Nanda-Hamner experiments where alternate pulses of light are thought to "entrain" the rhythm or "induce" a photoperiodic response by coinciding with phi i. It is concluded that the quail's photoinducible rhythm is indeed based on a circadian rhythm but one that is only weakly self-sustaining.(ABSTRACT TRUNCATED AT 250 WORDS)

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Melatonin and photoperiodic time measurement in Japanese quail (Coturnix coturnix japonica)

Juss

Meddle

Servant

et al. 1993

Proc. R. Soc. Lond. B

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Artificial extension of the duration of nocturnally secreted circulating melatonin with exogenous injections produces a short day effect in the reproductive status of mammals, and this paradigm has been applied to Japanese quail to test the hypothesis that birds are similar to mammals in this respect. Male quail reared on non-stimulatory short days (8L:16D) were switched to mildly stimulatory 12L:12D and given daily melatonin injections at dusk (10 micrograms 2 h before dusk and 10 micrograms at dusk) or at dawn (10 micrograms 2 h before dawn and 10 micrograms at dawn) for about 3 weeks. Although assay of circulating melatonin suggested that injections had extended the melatonin signal, there was no short day effect, i.e. reproductive stimulation was not prevented. This reinforces the view that, unlike mammals, birds do not read the duration of the melatonin signal to measure scotoperiod. Paradoxically, however, the injections resulted in a small but significant stimulation. The results are discussed in view of the postulated role for melatonin as an internal Zeitgeber, which is coupled to the external photic Zeitgeber, to regulate the circadian system.

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The hypothalamus and photoperiodic control of FSH secretion by melatonin in the male Syrian hamster

Bonnefond¹,

Walker²,

Stutz³

et al. 1989

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In the photoinhibited castrated male Syrian hamster, removal of the pineal gland or transfer to long photoperiods was followed by a rapid increase in the serum concentration of FSH. Levels were significantly above those of controls within 10 days. Central passive immunization of pineal-intact photoinhibited castrated animals against melatonin had a stimulatory effect on serum FSH levels, comparable with that observed following pinealectomy or transfer to short days. The effects of pinealectomy were blocked by programmed s.c. infusions of melatonin in a time-dependent manner. Serum FSH levels remained low in animals receiving 100 ng melatonin delivered over 10 h but the same mass of melatonin delivered over 4 h had no effect on the response to pinealectomy. Lesions of the anterior hypothalamus had no effect on the pinealectomy-induced increase of serum FSH in animals receiving saline infusions. However, in lesioned animals, programmed infusions of melatonin were no longer able to suppress the rise in FSH following pinealectomy. These results demonstrated that pineal melatonin is the mediator of central photoperiodic control of FSH secretion. The duration of the melatonin signal determines its effectiveness and an intact anterior hypothalamus is necessary for the signal to be read and/or the appropriate neuroendocrine response expressed.

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Suppression of suprachiasmatic nucleus neurone activity with a vasopressin receptor antagonist: possible role for endogenous vasopressin in circadian activity cycles in vitro

Mihai¹,

Juss²,

Ingram³

1994

Neuroscience Letters

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TS Juss

Mesencephalic Areas Controlling Pulsatile Oxytocin Release in the Suckled Rat

Circadian nature of the photoperiodic clock in Japanese quail

Melatonin and photoperiodic time measurement in Japanese quail (Coturnix coturnix japonica)

The hypothalamus and photoperiodic control of FSH secretion by melatonin in the male Syrian hamster

Suppression of suprachiasmatic nucleus neurone activity with a vasopressin receptor antagonist: possible role for endogenous vasopressin in circadian activity cycles in vitro

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