Prolactin (PRL) is an important hormone for freshwater adaptation in many t
eleost species. In some euryhaline fishes, growth hormone (GH) and cortisol
are involved in seawater adaptation by stimulating ion extrusion. When cha
nnel catfish (Ictalurus punctatus) were transferred from fresh water to dil
ute seawater (300-400 mOsm), their plasma osmolality was always higher than
the environmental salinity. In correlation with the increase in plasma osm
olality, significant increases in plasma cortisol were observed. However, n
o effect of ovine GH or cortisol was seen in plasma osmolality or gill Na,
K-ATPase activity when the hormones were given during the course of acclima
tion to dilute seawater. When catfish in fresh water were hypophysectomized
, plasma osmolality was significantly decreased by 24 h, reaching a minimum
level after 2 days. When they were transferred to dilute seawater, the pla
sma osmolality of the sham-operated fish was consistently higher than that
of environmental water, whereas the osmolality of the hypophysectomized fis
h was equivalent to the environmental salinity. Ovine PRL restored the plas
ma osmolality of the hypophysectomized fish in fresh water to the level of
sham-operated fish. Cortisol was also effective, but the effect was less pr
onounced than the effect of PRL. Injection of PRL in combination with corti
sol resulted in a marked additive increase in plasma osmolality to a level
even above that of the sham-operated fish. Ovine GH was without effect. The
se treatments in hypophysectomized fish transferred to dilute seawater prod
uced essentially the same results as those in fish in fresh water. Plasma o
smolality was also increased after PRL treatment of the intact fish in fres
h water. There was a synergistic effect between PRL and cortisol in hypophy
sectomized fish in dilute seawater as well as in intact fish in fresh water
. PRL did not stimulate cortisol secretion either in hypophysectomized fish
or in intact fish. In the stenohaline catfish, both PRL and cortisol seem
to be involved importantly in ion uptake from the environment not only in f
resh water but also in brackishwater. (C) 2001 Academic Press.