G. Arechaga

Oxytocinase in the Female Rat Hypothalamus: A Novel Mechanism Controlling Oxytocin Neurones During Lactation

In addition to its peripheral actions, oxytocin released within the brain is important for birth and essential for milk ejection. The oxytocinase enzyme (placental leucine aminopeptidase; P‐LAP) is expressed both peripherally and centrally. P‐LAP controls oxytocin degradation in the uterus, placenta and plasma during pregnancy, although its role in the hypothalamus is unclear. We investigated P‐LAP expression and activity in the hypothalamus in virgin, pregnant and lactating rats, as well as its role in vivo during the milk‐ejection reflex. P‐LAP mRNA and protein were expressed in magnocellular neurones of the supraoptic (SON) and paraventricular (PVN) nuclei. Oxytocin neurones co‐expressed P‐LAP without strong subcellular co‐localisation of oxytocin and P‐LAP, indicating that they are packaged in separate vesicles. Examination of the intracellular distribution of oxytocin and P‐LAP showed a redistribution of P‐LAP to within 1 μm of the plasma membrane in the somata of oxytocin neurones during lactation. Both P‐LAP mRNA expression and hypothalamic leucyl/cystinyl aminopeptidase activity in the soluble fraction were higher during lactation than in late pregnant or virgin states. Inhibition of central enzyme activity by i.c.v. injection of amastatin in anaesthetised suckling mothers increased the frequency of reflex milk ejections. Because hypothalamic P‐LAP expression and activity increase in lactation, and the prevention of its action mimics central oxytocin administration, we conclude that P‐LAP regulates auto‐excitatory oxytocin actions during the suckling‐induced milk‐ejection reflex.

Oleate, linoleate and cholesterol differently modify aspartyl- and glutamyl-aminopeptidase activities in primary cultures of rat astrocytes.

The intake of mono- and polyunsaturated fatty acids has been associated with a minor risk of cardiovascular diseases including hypertension. Changes in levels of fatty acids may also modify the cell activity and may be related with alterations in different regulatory processes. Aminopeptidases are zinc-metalloenzymes which metabolise circulating peptide hormones in several tissues. Glutamyl-aminopeptidase (GluAP) and to a lesser extent, aspartyl-aminopeptidase (AspAP), are related with angiotensin metabolism in the renin-angiotensin system. The present work was designed to study the effect of a range of concentrations (1-100 microM) of oleic and linoleic acids and cholesterol present in the culture medium on the activity of GluAP and AspAP in the culture of rat cerebral cortical astrocytes taken from 21-day-old fetuses. The results showed that oleic acid inhibits, while linoleic acid stimulates the activity of AspAP. Both fatty acids inhibit the activity of GluAP. Cholesterol stimulates the activity of both enzymes. On the basis of these results, a functional link may exit between the effects of fatty acids on hypertension and the modulation of aminopeptidase activity by these compounds in rat astrocytes, as an example of target cell type in the central nervous system.

Daily Rhythm of Aspartate Aminopeptidase Activity in the Retina, Pineal Gland and Occipital Cortex of the Rat

The levels of specific soluble aspartyl aminopeptidase activity were assayed in retina, occipital cortex, anterior pituitary, posterior pituitary, pineal gland and serum of adult male rats, using Asp-2-naphthylamide as substrate, in a 12:12 h light:dark cycle (7-19 h light). Significant diurnal variations appeared in retina, pineal gland, occipital cortex and serum. In addition, different patterns of diurnal variation of the enzymatic activity were observed in the tissues analyzed. A regular increase of the activity was noticed at the end of the dark period in all the tissues as a common feature, except in serum, in which the enzymatic activity reached a peak in the middle of the light period, decreasing progressively during the dark hours. After the last hours of darkness, the pattern of variation in the activity differed in each tissue. These diurnal variations in aspartyl aminopeptidase activity could reflect the functional status of its putative endogenous substrates, such as angiotensin II, and it may also suggest the existence of differential regulatory mechanisms associated with each location.

Aminopeptidase activities after water deprivation in male and female rats

Aminopeptidases (APs) play a major role in the metabolism of circulating and local peptides, such as angiotensins and vasopressin, substances involved in the control of blood pressure and water balance. In the present work, we studied the influence of dehydration on angiotensinases and vasopressin-degrading activity. Since sex differences may exist in the regulation of water balance by angiotensin II and differential sexual steroid modulation of vasopressin secretion, in response to osmotic stimulation have been reported, gonadotropin releasing hormone (GnRH)-degrading activity was also analysed in serum, neurohypophysis and adrenal glands of male and female rats. Our results did not suggest sex differences in the response to changes in osmolality. GnRH-degrading activity decreased in serum of dehydrated males and females, which suggests a longer action of the peptide under these conditions. In neurohypophysis, there was an increase in the activity of aminopeptidase A (APA), the enzyme responsible for the metabolism of angiotensin II to angiotensin III. This occurs with a decrease in alanyl aminopeptidase activity, which would lead to a prolonged action of angiotensin III by reduction of its metabolism. In adrenals of dehydrated animals, the results would imply a high degree of metabolism of angiotensin III and vasopressin.

EFFECTS OF DIETARY SUPPLEMENTATION WITH FISH OIL, LARD, OR COCONUT OIL ON OXYTOCINASE ACTIVITY IN THE TESTIS OF MICE

Oxytocin (OT), locally synthesized in the testis, is involved in androgen biosynthesis. The use of polyunsaturated fatty acids (e.g., fish oil) in the diet may improve the fertilizing ability in mammals. Cystinyl aminopeptidase (oxytocinase) activity plays a major role regulating the functional status of OT. Sex steroids and the type of the fatty acid used in the diet modify aminopeptidase activities in serum. In the present study, the authors compared the effect of a fish oil supplemented diet with two other diets supplemented with saturated oils (lard and coconut) on oxytocinase activity in the testis of mice. The enzymatic activity was determined fluorometrically using cystinyl- g -naphthylamide as substrate. The results demonstrated higher levels of oxytocinase activity in mice fed the diet supplemented with fish oil than in those that were fed diets containing lard or coconut oils. The testicular functions in which OT is involved may be attenuated by the use of fish oil in the diet.

Changes in membrane‐bound leucine aminopeptidase activity during maturation and ageing of brain

Aminopeptidases are believed to be enzymes that regulate the activity of various neuropeptides. However, their physiological role, as well as their mechanisms of regulation, are not well understood. To analyze a part of the regulatory mechanisms that control the activity of these enzymes, the subcellular distribution of membrane‐bound leucyl aminopeptidase activity was studied in rat brain during development and ageing. Except in fetuses, the enzymic activity was greatest in the microsomal fraction in all ages tested. Except in microsomal and myelin fractions, compared with fetuses, leucyl aminopeptidase activity showed a decrease in 1‐week‐old rats and a subsequent increase to adult levels in 1‐month‐old rats. This profile differed in the microsomal fraction, where the activity increased steadily up to 1‐month‐old rats. After this age, the activity decreased progressively in 5‐month and 24‐month‐old rats. These results may reflect changes in the functional status of the susceptible substrates during development and ageing.

Developmental and ageing changes in aminopeptidase activities in selected tissues of the rat

Aminopeptidase activities, assayed as arylamidase activities, were investigated in selected tissues of 1, 6, 12 and 24-month-old rats. The enzyme activities were found to have a heterogeneous distribution and age-related changes were observed. The highest levels of soluble arginyl-aminopeptidase activity were detected in brain homogenate at all the studied ages, whereas membrane-bound activity presented the highest levels in brain and kidney in the four ages tested. Aspartyl-aminopeptidase activity was detected mainly in the particulate fraction of kidney at all four ages. In 1, 6 and 12-month-old animals, soluble aspartyl-aminopeptidase activity was also higher in the kidney than in the rest of the tissues, whereas in the group of 2-year-old rats, the highest levels were found in both kidney and liver. Age-related changes were observed in all the studied tissues and for all the assayed enzymatic activities. In general, the maximal levels were detected in both the youngest and the oldest animals, and the minimal ones in 6 and 12-month-old rats. However, in the adrenals, the soluble and membrane-bound arginyl-aminopeptidase activity was higher in 6-month and 2-year-old rats than in 1-month and 12-month-old rats. These changes may reflect the functional status of the susceptible endogenous substrates of aminopeptidases.

Effects of dehydration on renal aminopeptidase activities in adult male and female rats

Aminopeptidases (APs) are important regulators of peptides directly involved in water homeostasis such as angiotensins (Ang) and vasopressin (AVP). Sex differences in water balance and differences in the effects of gonadal steroids on osmotic stimulation of vasopressin secretion have been reported. Since sex steroids may be involved, the gonadotropin response to osmotic stimuli may be different between males and females. The purpose of this study was to determine the behavior of angiotensinases, vasopressin-degrading activity and gonadotropin-releasing hormone (GnRH)-degrading activity in the cortex and medulla of the kidney of dehydrated male and female rats. In the renal cortex, our results demonstrated an increase in Ang III-degrading activity in dehydrated males but not in females. This response may lead to an increased formation of Ang IV. This occurs with an increase in AspAP activity (which metabolizes Ang I to des-Asp(1)-Ang I), with no changes in Ang II-degrading activity and also with increased levels of AVP-degrading activity in dehydrated animals. These results may suggest an increased cortical blood flow due to enhanced formation of Ang IV together with reduced availability of the vasoconstrictor agents Ang II and AVP in the renal cortex of dehydrated males. The results obtained in the renal medulla suggest the inhibition of the metabolism of Ang I to des-Asp(1)-Ang I, together with a reduced metabolism of Ang II and AVP in dehydrated males but not in females. These results suggest a prolonged action of Ang II and AVP, which could stimulate sodium and water reabsorption in the medulla of dehydrated males. Changes in APs after dehydration occur preferentially in males, which may explain in part the reported sex differences in water homeostasis. The present results suggest a physiologically relevant role for AP activities in water homeostasis.

Aminopeptidases in the gonads of male and female rats

OBJECTIVE To assess the relative importance of soluble (Sol) and membrane-bound (M-B) components of aminopeptidase (AP) activities in local functions of male and female gonads. DESIGN Observational study. SETTING University research. ANIMAL(S) Adult male and female Sprague-Dawley rats in the proestrous phase of the estrous cycle. INTERVENTION(S) Samples from the right testis and the whole right ovary were dissected after perfusion with saline. The Sol and M-B fractions were obtained from these samples. MAIN OUTCOME MEASURE(S) Fluorometric measurement of Sol and M-B AP activities using arylamide derivatives as substrates. RESULT(S) Highly significant differences between male and female gonads were observed. Sol AP activities showed a significant predominance in testes, whereas M-B AP activities were significantly higher in ovaries. CONCLUSION(S) There was a discrepancy in the distribution of Sol and M-B AP activities between male and female gonads, which may imply a direct participation of sex steroids in AP activities. These results may reflect the relative importance of these enzymes in the testis and ovary and should be taken into account in evaluating the functional role of peptides locally produced in gonads.

Environmental Light-Darkness Conditions Induce Changes in Brain and Peripheral Pyroglutamyl-Peptidase I Activity

To evaluate the influence of light and darkness on brain pyroglutamyl-peptidase I (pGluPI) activity, four experimental groups of rats were compared at the same time-point (10.00 h). Two groups were designed with a standard 12-12 h light-dark cycle: In group A, the lights were on from 7.00 h to 19.00 h, and the experiment was done under light conditions; in group B, the lights were on from 19.00 h to 7.00 h, and the experiment was done under darkness conditions. Two additional groups were designed with nonstandard light-dark conditions: In group C, the animals were subjected to constant light, and the experiment was done under light conditions. In group D, animals were subjected to constant darkness, and the experiment was done under darkness conditions. Light (vs darkness) and standard (vs nonstandard) conditions produced significant changes on pGluPI activity in specific structures; the data suggested that endogenous substrates of pGluPI such as thyrotropin-releasing hormone and gonadotropin-releasing hormone, might be modified in parallel. There was left predominance in the retina under light conditions on a standard schedule (group A). The regional pattern of distribution of activity was similar in groups on a standard schedule (A vs B) and in groups tested under constant light-dark conditions (C vs D). However, this pattern differed between groups subjected to standard vs constant light-dark conditions (A and B vs C and D). These results support an influence of environmental light and darkness on pGluPI activity, which may reflect concomitant changes in its susceptible substrates and consequently in their functions.