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Target Concepts:
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Query: UNIPROT:P50583 (
asymmetrical
)
12,197
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Individual groups of 6 ram lambs were housed within a controlled environment and exposed to one of 6 photoperiod schedules. Groups I and II received 8 (short day) or 16 (long day) h of continuous light, respectively; Groups III, IV and V were exposed to
asymmetrical
skeleton photoperiods consisting of a main light period of 7 h followed 9 h later by a light pulse of 1 h, 15 min or 1 min duration, respectively, and Group VI was exposed to a symmetrical skeleton photoperiod consisting of two 1-h light pulses positioned 16 h apart. After 4 weeks of treatment serum concentrations of prolactin and testosterone were measured over 24 h. Long-day responses characteristic of the 16L:8D photoperiod (i.e. elevated prolactin and reduced testosterone) were obtained in each of the asymmetric light-pulse treatment groups, but whereas prolactin was elevated over the full 24 h in lambs exposed to 16L:8D, two prominent nocturnal prolactin releases were largely responsible for the high 24-h mean prolactin values in Groups III, IV and V. Reduced serum testosterone in these same groups could not be attributed to a diurnal pattern of secretion but was associated with an overall decrease in testosterone pulse frequency.
Prolactin
and testosterone levels in Group IV were intermediate between those observed in lambs exposed to 8 or 16 h of light. In summary, light pulses of short duration (1 min) positioned at 17 h after dawn can produce endocrine changes in lambs similar to those observed in lambs exposed to 16 h of continuous light.
...
PMID:Twenty-four-hour profiles of prolactin and testosterone in ram lambs exposed to skeleton photoperiods consisting of various light pulses. 396 60
We investigated gradual dilution of the apical medium (Leibovitz's L15 to fresh water [FW], analogous to gradual reduction in environmental salinity) and basolateral hormone support on the electrophysiological and ion-transporting properties of "developing" FW trout gill epithelia cultured on filter inserts. Epithelia were of the double-seeded type, containing both pavement cells and mitochondria-rich cells. In these experiments we were able to circumvent "symmetrical development" (typically L15 apical/L15 basolateral for 6-9 days) by commencing dilution of apical media (unchanged L15 basolateral, i.e.,
asymmetrical
conditions) at culture-day 3, the time when transepithelial resistance (TER) and potential (TEP) would normally be increasing rapidly under symmetrical conditions. In Series 1 (without basolateral hormone support), epithelia were exposed to progressively diluted apical media (100%, 75%, 50% L15) at 24-hr intervals, thereafter cultured in 50% L15 apical media for 4 days, and then in apical FW. In Series 2, epithelia were exposed to progressively diluted apical media (100%, 75%, 50%, 25%, 12.5% L15, and FW) at 24-hr intervals with physiologically relevant doses of cortisol (500 ng ml(-1)), prolactin (50 ng ml(-1)), or cortisol + prolactin (500 ng ml(-1) + 50 ng ml(-1), respectively) added to basolateral media (100% L15). In Series 1, TER reached a plateau phase over 25 kohms cm2 under 50% L15/L15 culture conditions (after 4 days of culture) but fell to approximately 6 kohms cm2 after 24 hr in FW/L15 conditions. In Series 2, TER stabilized at 4-11 kohms cm2 depending on treatment. In general, apical media dilution during epithelial development was well tolerated. Preparations exhibited continued integrity right down to apical FW, indicated by only modest increases in net ion losses (i.e., basolateral to apical movement of ions), relatively stable TER values, and the expected changeover from positive to negative TEP in FW. Cortisol was clearly beneficial to FW adaptation, promoting greater TER, reduced unidirectional and net Na+ and Cl- flux rates, and elevated Na+, K+ -ATPase activity.
Prolactin
also offered some support, where its actions on TER were less than but additive to those of cortisol. There was no direct evidence that prolactin limited ion movements during gradual dilution. These in vitro studies demonstrate that "developing epithelia" were able to tolerate gradual dilution of apical media, the remarkable barrier properties of gill epithelia, and the importance of cortisol and prolactin in promoting integrity of this barrier during FW adaptation.
...
PMID:Response of developing cultured freshwater gill epithelia to gradual apical media dilution and hormone supplementation. 1567 8
