Hormonal control of metabolism of gamma-aminobutyric acid in the rat hypothalamus and hippocampus

It has been established that hydrocortisone administration increased the amount of total, free, bound and synaptosomal GABA in the hypothalamus, glutamate decarboxylase activity in the homogenate and synaptosomes and time of the mediator turnover. ACTH administration increased the GABA content and glutamate decarboxylase activity in synaptosomes. The total amino acid content and time of its turnover got higher only with single hormone administration. In the hippocamp hydrocortisone administration increased the total and free GABA contents, its turnover time, glutamate decarboxylase activity in the homogenate and decreased GABA-aminotransferase activity in the homogenate and synaptosomes. The GABA level in synaptosomes grew only with multiple hormone administration. Single administration of ACTH decreased the total GABA content, glutamate decarboxylase activity in the homogenate, while its multiple administration increased the GABA level in synaptosomes followed by a decrease of GABA-aminotransferase activity in the homogenate and synaptosomes. The GABA turnover time fell with single hormone administration and grew with the multiple one. Adrenalectomy induced no changes in the GABA content and activity of its metabolism enzymes in the hypothalamus, however the bound GABA level decreased, while the turnover time increased. In the hippocamp adrenalectomy decreased total, free and synaptosomal GABA contents, glutamate decarboxylase activity in a homogenate and turnover time. Subsequent hydrocortisone administration only partly normalized the revealed changes of the GABA metabolism in the brain structures under adrenalectomy.     

Effect of ACTH and its fragment on brain catecholamines in intact and adrenalectomized rats.

Brain catecholamine metabolism was monitored by distribution of labelled noradrenaline (3H-NA) after intraventricular injection to intact and adrenalectomized rats. The adrenalectomy produced an increased disappearance rate of the labelled pool in the hypothalamus, hippocampus and neocortex. These changes could be prevented by hydrocortisone pretreatment. Painful stimuli resulted in an increased disappearance of the labelled pool in both intact and adrenalectomized rats. The implantation of hydrocortisone into the tuberoinfundibular region prevented the stress-induced changes of the catecholamine metabolism. Intraventricular administration of ACTH1-24 and ACTH4-10 produced a significant increase of the disappearance rate in different brain regions of adrenalectomized rats. The blocking of catecholamine synthesis by intraventricular injection of alpha-methyl-m-tyrosine resulted in a marked decrease of the labelled pool but did not prevent the ACTH-induced decrease of the tracer pool. On the other hand, the blocking of monoamine-oxydase activity by Pargyline led to a marked increase of the labelled pool but intraventricular administration of ACTH led to an increase of the disappearance rate. The mechanism of ACTH action on brain catecholamine metabolism is still obscure, however, an increased release of the NA to ACTH peptides is very likely in the light of the present observations.     

Effect an ACTH analog on the processes of learning and memory in rats

On the basis of the idea of the important role of neurotransmitter systems in realization of neuropeptide effects, the participation was studied of the monoaminergic systems in the mechanisms of the ACTH analogue influence on the processes of learning and memory in control animals and animals with a changed functional state of the monoaminergic systems. In parallel the influence was studied of the ACTH analogue on the content of the endogenic monoamines in various brain structures of rats. It has been shown that administration of the ACTH analogue in a dose of 10 mcg affects the elaboration and preservation of conditioned reflexes (CRs) of passive avoidance, CRs of two-side avoidance and labyrinth CRs only in conditions of changed functional state of the monoaminergic systems. Amnesia, usually elicited by 5-oxytryptophane and disulfiram is prevented by administration of the ACTH analogue. Administration of the ACTH analogue is accompanied by the intensification of serotonine metabolism in the midbrain and medulla and by an increase of noradrenaline content in the hypothlamus.     

Effect of corticotropin and hydrocortisone on carbohydrate metabolism in skeletal muscles

The intraperitoneal administration of corticotropin (ACTH) in the rate of 1 and 2 units per 100 g of body weight and that of hydrocortisone in the rate of 1 mg and 5 mg per 100 g body weight were studied for their effects on carbohydrate metabolism rate in musculus gastrocnemius as well as on the level of 11-oxycorticosteroids in blood plasma of rats. The glycogen level in muscles was found to rise 3 hours after ACTH and hydrocortisone administration and it correlated with the hydrocortisone level increase in blood plasma (r = 0.714 and 0.863, respectively); the activity of pyruvate kinase decreased. Simultaneously ACTH did not change while hydrocortisone lowered the phosphorylase activity and the content of both fructose-6-phosphate and lactate.     

MOUSE BRAIN TYROSINE HYDROXYLASE AND GLUTAMIC ACID DECARBOXYLASE FOLLOWING TREATMENT WITH ADRENOCORTICOTROPHIC HORMONE, VASOPRESSIN OR CORTICOSTERONE

The activities of tyrosine hydroxylase (TH) and glutamic acid decarboxylase (GAD) from several mouse brain regions were assayed following repeated administration of adrenocorticotrophic hormone (ACTH), lysine vasopressin (LVP) or corticosterone. Although similar treatments with ACTH have been shown to result in changes of catecholamine turnover and GABA content, no changes in the activity of either TH or GAD were observed in any brain region. Likewise LVP had no effect on either enzyme. Since the assays for TH were performed with concentrations of tyrosine and tetrahydrobiopterin cofactor below their respective Michaelis constants, this suggests that the changes of catecholamine turnover are not mediated by changes of TH activity. Twice daily corticosterone adrninistration for four days increased TH activity in the hypothalamus but not in any other brain region.     

ACTH increases expression of c-fos, c-jun and beta-actin genes in the dexamethasone-treated rat adrenals.

Our recent finding that ACTH increases c-fos mRNA in the adrenal gland of hypophysectomized rats indicates that the gene product FOS may play an important role(s) in mediating the action of ACTH. However, hypophysectomy employed in that study causes the disappearance of trophic hormones other than ACTH and may modify the effect of ACTH. Thus, in the present investigation, dexamethasone-treated rats were used. Since FOS functions only when it dimerizes with JUN (the product of c-jun gene), the changes in the levels of c-fos and c-jun mRNAs were studied together with that of beta-actin mRNA which is also affected by ACTH. Northern blot analysis was employed to determine the mRNA levels. It was demonstrated that ACTH increases the mRNAs coding c-fos and c-jun in the adrenal glands of dexamethasone-treated, ACTH-suppressed rats. The c-fos mRNA was not detectable before ACTH administration. After ACTH administration, the mRNA levels were transiently increased, the maximum level being observed at 30 min after ACTH. At 180 min post ACTH, the level returned to the unstimulated level. The mRNA coding c-jun was detectable before ACTH administration and it also increased rapidly after ACTH with maximal stimulation at 30 min. However, the mRNA level at 180 min post ACTH was still higher than the unstimulated level. The changes in beta-actin mRNA were approximately the same as those of c-jun mRNA. These results suggest that increased expression of c-fos, c-jun and beta-actin genes by ACTH may play an important role in mediating its action on the adrenals.     

Aspartate and alanine aminotransferase activity in the tissues of adrenalectomized rabbits following administration of hydrocortisone and corticotropin

Aspartate and alanine aminotransferase (AsT, AlT) activities were studied in tissues of adrenalectomized rabbits which were treated with a single and multiple administrations of hydrocortisone (5 mg/kg) or a single administration of corticotropine (ACTH, 10 units/kg). It is shown that adrenalectomy decreases the AsT activity in homogenate of femoral muscle tissue and decreases the AlT activity in homogenate and supernatant of the liver, spleen and muscle tissue and in blood plasma. A single administration of hydrocortisone increases the AsT activity in supernatant of femoral muscle tissue and in blood plasma and increases AIT activity in the brain, liver, muscle and blood plasma. Parallel with that AsT and AlT activities are decreased in the spleen tissue. Multiple administration of hydrocortisone induces analogous changes in the AsT activity in the muscle and in the AlT activity in the liver, muscle and blood plasma. A single administration of ACTH induces an increase of the AsT activity in the muscle supernatant and in blood plasma. It also causes a rise of the AlT activity in the liver, muscle supernatant and blood plasma. The AlT activity is decreased in the brain supernatant. A question about stability of free amino acids metabolism (especially of alanine and aspartic acid) in the rabbit brain with changes in corticosteroid levels of organism is under discussion.     

Formation of gamma-aminobutyric acid from glutamate and putrescine in rat hypothalamic and hippocampal synaptosomes and regulation of these processes by glucocorticoids]

It has been shown that single or multiple hydrocortisone and ACTH administrations to intact rats increased GABA content and its synthesis from glutamate and putrescine in synaptosomes of hypothalamus. The letter content was increased by single hormonal administration while multiple hormonal administration and adrenalectomy decreased it. Ornithine decarboxylase activity was increased by single hydrocortisone administration to intact animals, following adrenalectomy, and it was decreased by single hormonal administration to adrenalectomized rats. GABA synthesis in synaptosomes of hippocampus from putrescine was increased by single hydrocortisone and multiple hormonal administrations. GABA content was increased by multiple administration of both hormones and was decreased by adrenalectomy. Putrescine level was decreased by multiple hydrocortisone administration to intact and single administration to adrenalectomized rats; ornithine decarboxylase activity was decreased by multiple administration of both hormones.     

Effect of pyridoxal phosphate on gamma-aminobutyric acid metabolism in different sections of the brain in irradiated animals]

A study was made of the effect of X-rays (4,5 Gy) and pyridoxal phosphate (3 mg/kg, v/v) on the activity of pyridoxal enzymes of GABA metabolism (e.g. glutamate decarboxylase, E.C. 4.1.1.15) and aminobutyrate aminotransferase (GABA-T, E.C. 2.6.1.19), as well as on GABA and glutamate content of the hemisphere cortex, brain stem and cerebellum of rabbits 6 and 10 days following irradiation and injection of a coenzyme. The height of the radiation sickness in rabbits was characterized by the manifest changes in glutamate decarboxylase and GABA-T activity, as well as in GABA and glutamate content of various brain parts differing in the structural and functional functions. The administration of pyridoxal phosphate produced pronounced activation of glutamate decarboxylase, particularly 6 days after irradiation and administration of the co-enzyme, and, to a lesser extent, influenced GABA-T function. Pyridoxal phosphate favored maintaining the GABA level above the control level in the hemisphere cortex and brain stem 6 and 10 days after exposure. The injection of pyridoxal phosphate did not normalize the glutamate content of the brain parts 6 days after exposure, but favored the normalization of GABA-T activity on day 10.     

Activity of some enzymes involved in the metabolism of polyamines in the liver of streptozotocin-diabetic rats

• 1.1. The effect of diabetes on some enzymes of polyamine metabolism was studied in male rats 1–12 days after administration of streptozotocin.
• 2.2. Hepatic ornithine decarboxylase activity decreased in the first days after the administration, but increased thereafter. The decrease was not due to an alteration of the ODC-antizyme concentration, nor to a posttranslational modification catalyzed by transglutaminase.
• 3.3. S-adenosylmethionine decarboxylase and ornithine transaminase were both increased.
• 4.4. Spermicline acetyltransferase activity was practically unchanged, while its inactivating factor was markedly decreased.

     

Intratesticular steroid levels and their hormonal control

Litter-mate adult male rats were treated with daily intramuscular injections of ACTH (10.5 micrograms), dexamethasone (2.0 mg), ethynyl estradiol (1.7 micrograms) and hCG (5 IU) for three consecutive days. The animals were sacrificed on the fourth day and the intratesticular and peripheral plasma steroid levels were analyzed. The steroids measured by radioimmunoassay included pregnenolone, 17-hydroxypregnenolone, dehydroepiandrosterone, progesterone, 17-hydroxyprogesterone, androstenedione, testosterone and dihydrotestosterone. In addition, the sulphoconjugated forms of pregnenolone, dehydroepiandrosterone, testosterone and dihydrotestosterone were estimated in the peripheral blood. The administration of ACTH diminished the intratesticular levels of all steroids studied. Also dexamethasone and ethynyl estradiol treatment suppressed all intratesticular steroid levels, except that of pregnenolone (the former) and of 17-hydroxyprogesterone (the latter). The suppressive effect of ethynyl estradiol was strongest on the levels of the delta 5-steroids and that of dexamethasone on the delta 4-steroids; the latter was significantly stronger than the effect of ACTH. The stimulatory effect of hCG was limited to the metabolism of progesterone and was restricted to the sequence: 17-hydroxyprogesterone----androstenedione----testosterone---- dihydrotestosterone. Dexamethasone-suppression, and hCG-stimulation of the intratesticular levels of delta 4-steroids, was mirrored by corresponding changes in the peripheral plasma levels, with the exception of the plasma levels of androstenedione which were not influenced by any of the treatments studied. Also the suppression of intratesticular testosterone and dihydrotestosterone levels by ACTH, dexamethasone, or ethynyl estradiol was closely reflected by their plasma levels both in the unconjugated and sulphoconjugated forms. On the hand, the administration of ACTH diminished the intratesticular levels of pregnenolone and progesterone but significantly increased those in the plasma. Moreover, both ACTH and ethynyl estradiol reduced the levels of all delta 5-steroids in testicular tissue, but not in the peripheral plasma, although they decreased the circulating levels of pregnenolone sulphate and dehydroepiandrosterone sulphate. The data are interpreted as suggesting that the hormonal agents studied interfere with testicular steroidogenesis through different mechanisms.     

Prolonged negative selection of Drosophila melanogaster for a character of adaptive significance disturbs stress reactivity.

The metabolism of juvenile hormone by JH-esterase and JH-epoxide hydrolase, and octopamine by tyrosine decarboxylase were studied under normal and stress conditions in flies of two related lines of D. melanogaster. One was selected for high (HA line) and another for low (LA line) male sexual activity for more than 700 generations. It was demonstrated that prolonged selection for low male sexual activity results in considerable changes in both systems. Tyrosine decarboxylase activity in males and females of the LA line was sharply reduced as compared with those of the HA and control Canton-S lines; JH-esterase and JH-epoxide hydrolase activities were decreased in females, and not in males, of the LA line. It was demonstrated that the response of both metabolic systems to heat stress is impaired in individuals of the LA line: the system of juvenile hormone metabolism does not respond to stress, and that of octopamine metabolism is decelerated. The role of juvenile hormone metabolism in male reproductive function is discussed.     

The role of ACTH in determining the metabolic pathways of deoxycorticosterone by newborn rat adrenal cells in primary culture

The metabolism of deoxycorticosterone (DOC) by newborn rat adrenal cells in primary culture at various times after culture, with and without ACTH, was studied. After 5 days in culture before addition of ACTH, the main products of the metabolism of DOC were corticosterone and 18-hydroxy-11-deoxycorticosterone in a 2:1 ratio. Smaller amounts of 20 alpha-dihydrocorticosterone and 18-hydroxycorticosterone were also found. No reduced metabolites of DOC were detected. Without ACTH the conversion of DOC to corticosterone and 18-hydroxyDOC declined rapidly. After 13 days in culture, this conversion accounted for only half the metabolites. The reductive metabolism of DOC which yields products reduced at 20 alpha and/or 3 alpha/beta and 5 alpha accounted for the other half. When ACTH (22 mU/ml) was added to the culture daily for several weeks, the primary metabolism of DOC remained that of 11 beta- and 18-hydroxylation yielding corticosterone and 18-hydroxyDOC. A minor reductive metabolism was found. Both cultures produced 6 beta-hydroxyDOC. These results demonstrate that ACTH is needed to maintain the efficiency of the 11 beta/18-hydroxylating system. They also show that ACTH controls the type of metabolism predominant in the rat adrenal cell and may be responsible for the balance between the biosynthesis of glucocorticoids and their reductive catabolism in the fasciculata zone of the adrenal gland.     

The role of corticosteroids in the homeostasis of the eye

Three problems were studied on the human and rabbit eye: to what extent the mineralocorticoids contribute to the control of Na+ and K+ transport in the lens epithelium, how do the glucocorticoids influence the concentration of glucose in the aqueous humour and what is the effect of the pituitary-adrenal axis on the hemato-ocular barrier. Specific receptor-like proteins binding aldosterone were found in the lens epithelium. Na+ and K+ concentrations in the aqueous were influenced by both aldosterone and spironolactone administration. The aldosterone concentration in human cataracts was found to be higher in cases of cataracts complicated by arterial hypertension. In spite of some indication of anticataractogenous action of mineralocorticoids, aldosterone did not prevent the formation of cortisol-induced cataract in chick embryos. Glucose concentration in the aqueous was increased by glucocorticoid administration as well as by stimulation of their secretion by ACTH. Further, the contribution of the pituitary-adrenal axis to the breakdown of the hemato-ocular barrier was investigated by measuring the changes of the total protein content in the aqueous. ACTH1-24 caused a partial breakdown of the barrier, as well as ACTH4-10 or alpha-MSH. As the latter two peptides lack the stimulative effect on the corticoid secretion and glucocorticoids themselves fail to increase the protein content in the aqueous, the breakdown of the hemato-ocular barrier seems to be essential for ACTH-linked peptide fragments and is not mediated by corticoids.     

Acute effects of desipramine and clomipramine on pituitary-adrenal axis in man

Brain neurotransmitters play an essential role in central regulation of hypothalamic factors which stimulate or inhibit the secretion of pituitary hormones. Insight in this complex system might be obtained by analysing changes in pituitary and peripheral hormone secretion following the administration of neuroactive drugs which influence the action of neurotransmitters. Desipramine is well-known to inhibit presynaptic norepinephrine reuptake, clomipramine on the other hand interferes with the serotoninergic system. In 15 male volunteers, the effects of single-dose administration of each drug were studied in comparison to placebo. Basal concentrations of ACTH and cortisol, as well as the rise of both hormones following insulin-induced hypoglycemia, were studied. Basal cortisol values and the response to hypoglycemia were not affected by either pharmacon in this study. Slight differences could be seen in the ACTH responses, which were however not significant.     

Inhibitory effect of ouabain on epinephrine-induced stimulation of adrenal corticosterone secretion in rats.

Chronic administration of ouabain (3 mg/Kg body weight, subcutaneously, once daily for consecutive 15 days) definitely inhibited epinephrine-induced increase of adrenal corticosterone secretion. The inhibition rate increased along with frequency of ouabain administration. Increase in adrenal corticosterone synthesis and secretion by ACTH (20-50 mU/rat) administration was partially suppressed by pretreatment with chronic ouabain administration. A slight but significant increase of adrenal corticosterone secretion caused by epinephrine administration in hypophysectomized rats was also inhibited by pretreatment with ouabain administration. Chronic administration of neither phentolamine (1 mg/rat, intraperitoneally, once daily for consecutive 15 days) nor propranolol (3 mg/Kg body weight, subcutaneously, once daily for consecutive 15 days) caused significant changes in adrenal corticosterone secretion in response to ACTH as well as to epinephrine. Chronic administration of ouabain in rats causes not only elevated secretion of ACTH from anterior pituitary but also functional change in adrenals leading to suppression of corticosterone secretion in response to ACTH or epinephrine administration.     

Ovine fetal adrenal maturation at term and during fetal ACTH administration: evidence that the modulating effect of cortisol may involve cAMP

Exogenous ACTH1-24 promotes adrenal maturation in fetal sheep, and this effect appears to be modulated in part by cortisol (Challis et al. 1985). We have examined whether similar changes in adrenal metabolism of progesterone occur with ACTH-induced labour as at spontaneous term and whether the site of cortisol modulation is on adrenal steroidogenesis or at the level of cAMP generation. Chronically catheterized fetal sheep were infused in utero for 100 h between days 127 and 131 of pregnancy with P-ACTH, P-ACTH + metopirone, P-ACTH + metopirone + cortisol, or saline. After 100 h the metabolism of [3H]progesterone was measured in adrenal homogenates. Similar incubations were performed with adrenal tissue from fetal sheep at day 130 of pregnancy and at spontaneous labour. In the treatment groups of sheep, cAMP output by dispersed adrenal cells in response to ACTH added in vitro was also determined. Similar qualitative patterns of [3H]progesterone metabolism were found in adrenal homogenates after in vivo ACTH or at term. At both times there was an increase in cortisol and in total 17 alpha-hydroxycorticosteroid accumulation and also evidence for increased activity of 11 beta-hydroxylase enzyme. The formation of total 17 alpha-hydroxycorticosteroids was not affected significantly by concurrent treatment in vivo with metopirone +/- cortisol. The accumulation of cAMP in vitro was increased after in vivo ACTH, attenuated after ACTH + metopirone, but statistical significance over controls was restored after ACTH + metopirone + cortisol treatment. We conclude that ACTH-induced labour and spontaneous parturition in sheep is associated with qualitatively similar changes in progesterone metabolism by the fetal adrenal gland.(ABSTRACT TRUNCATED AT 250 WORDS)     

Glucocorticoid Regulation of Spermidine Acetylation in the Rat Brain

The effect of glucocorticoids on polyamine metabolism has been elucidated further by measuring putrescine, spermidine, and spermine levels as well as ornithine decarboxylase, S-adenosylmethionine decarboxylase, and N1-acetylspermidine transferase activities in the hippocampus, cerebellar cortex, vermis, and deep nuclei of adrenalectomized rats. At 6 h after corticosterone or dexamethasone administration, the specific activities of ornithine decarboxylase and N1-acetylspermidine transferase showed the greatest increases in all brain tissues examined, and at 12 h, S-adenosylmethionine decarboxylase activity was not increased significantly. The hippocampus and cerebellar regions displayed different responses to corticosterone and dexamethasone, corresponding to the distribution of glucocorticoid and mineralocorticoid receptors. Corticosterone and dexamethasone increased ornithine decarboxylase and N1-acetylspermidine transferase activities in a dose-dependent manner, with dexamethasone being more active than corticosterone in all tissues. However, estradiol, progesterone, testosterone, and aldosterone were only active at doses greater than 5 mg/kg. The great increases in ornithine decarboxylase and N1-acetylspermidine transferase activities were accompanied by a marked increase in putrescine level and a small decrease in spermidine level. Our data confirm that the hippocampus and cerebellum are glucocorticoid target tissues and suggest that the increase in the content of putrescine, following acute treatment with glucocorticoids, is dependent on ornithine decarboxylase as well as N1-acetylspermidine transferase induction.     

Synthetic 1-24 ACTH-stimulated insulin release in bilaterally adrenalectomized patients

The plasma insulin and blood glucose responses to synthetic 1-24 ACTH were studied in 21 patients bilaterally adrenalectomized for pituitary-dependent Cushing's syndrome and in 8 healthy adults. In the adrenalectomized patients, intravenous 1-24 ACTH administration was followed by an increase in plasma insulin concentrations after 15 and 30 min and a fall in blood glucose after 30 min. In healthy subjects no significant changes in plasma insulin and blood glucose levels were found. The presence of intact adrenals seems to be the cause of the different responses of insulin to 1-24 ACTH injection in these two groups.     

Dynamics of adenylate cyclase desensitization during long-term exposure to the hormone

The dependence of adrenal gland adenylate cyclase desensitization on the dose of in vivo injected ACTH, the time of occurrence and duration of the enzyme refractory period and the dependence of desensitization on the number of ACTH injections were analyzed. The experiments were carried out on guinea pigs injected with prolonged action preparations of ACTH (4 and 6 units) daily for 1-6 days. Intramuscular injections of ACTH caused adenylate cyclase refraction to the repeated action of the hormone. The effect of desensitization was the most conspicuous within the first few hours after hormone injection. The decrease of adenylate cyclase sensitivity and the duration of this effect were found to depend on the ACTH dose as well as on the number of injections. It has been shown for the first time that a single in vivo injection of 0.9% NaCl causes short-term desensitization of adenylate cyclase to the repeated action of much higher doses of ACTH in vitro, presumably due to endogenous ACTH release in response to weak stress exposure. The periodicity of changes in adenylate cyclase sensitivity upon prolonged hormone administration is discussed. Sensitization of the enzyme upon daily short-term exposure to physiological doses of ACTH (administration of 0.9% NaCl for 6 days) was revealed.