Altered stress responsiveness and hypothalamic‐pituitary‐adrenal axis function in male rat offspring of socially isolated parents

Social isolation in male rats at weaning results in reduced basal levels of the neuroactive steroid 3α,5α‐tetrahydroprogesterone (3α,5α‐TH PROG) in the brain and plasma as well as increased anxiety‐like behavior. We now show that socially isolated female rats also manifest a reduced basal cerebrocortical concentration of 3α,5α‐TH PROG as well as an anxiety‐like profile in the elevated plus‐maze and Vogel conflict tests compared with group‐housed controls. In contrast, despite the fact that they were raised under normal conditions, adult male offspring of male and female rats subjected to social isolation before mating exhibited an increased basal cerebrocortical level of 3α,5α‐TH PROG but no difference in emotional reactivity compared with the offspring of group‐housed parents. These animals also showed an increased basal activity of the hypothalamic‐pituitary‐adrenal axis as well as reduced abundance of corticotropin‐releasing factor in the hypothalamus and of corticotropin‐releasing factor receptor type 1 in the pituitary. Moreover, negative feedback regulation of hypothalamic‐pituitary‐adrenal axis activity by glucocorticoid was enhanced in association with up‐regulation of glucocorticoid receptor expression in the hippocampus. There was also attenuation of corticosterone release induced by foot‐shock stress in the offspring of socially isolated parents. The increase in the brain concentration of 3α,5α‐TH PROG induced by acute stress was also blunted in these animals. Our results thus show that a stressful experience before mating can influence neuroendocrine signaling in the next generation.     

Seasonal changes in gene expression of steroidogenic enzymes,androgen and estrogen receptors in frog testis

The anuran amphibian Pelophylax esculentus shows an annual cycle of sexual steroid production and spermatogenesis. To more thoroughly comprehend the steroidogenic pathways that govern the seasonal reproductive cycle, we investigated the mRNA expression of key enzymes involved in the androgenic and oestrogenic biosynthesis pathways in the testis of frogs taken in the reproductive and postreproductive period. Furthermore, we also analysed androgen and oestrogen levels and their own receptor gene expressions. Our findings showed that during the reproductive period, 3β‐hydroxysteroid dehydrogenase, 17β‐hydroxysteroid dehydrogenase and 5α‐reductase mRNA levels were higher than those during the postreproductive period. High testosterone and 5α‐dihydrotestosterone titres as well as the expression levels of androgen receptors in the reproductive testis strongly confirmed that the androgenic pathway is necessary for spermatogenesis activation. Conversely, during the postreproductive period, the highest P450 aromatase, estrogen receptor α and β mRNA levels, paralleling with oestradiol titres, indicated that the oestrogenic pathway is essential for the interruption of the reproductive processes. Our findings demonstrated, for the first time in amphibians, that testicular endocrine cyclic activity could be modulated by the up‐regulation of key steroidogenic enzyme gene expressions. This in turn determines the activation of the androgenic pathway in reproductive phase and the oestrogenic one in postreproductive phase.     

Identification of progesterone and 5α‐dihydroprogesterone (5α‐DHP) in zebras by two‐dimensional high‐performance liquid chromatography and their dependence on the state of reproduction

Because of its low levels in late pregnancy, the relationship of progesterone to pregnancy maintenance in Equidae is not obvious. This study investigated the levels of progesterone (4‐pregnane‐3,20‐dione; P4) and 5α‐dihydroprogesterone (5α‐DHP) during pregnancy in zebras in relation to reproductive state. Blood samples from female zebras (Equus burchelli, E. zebra hartmannae, E. grevyi) were taken at Dvur Kralove Zoo. Progesterone and 5α‐DHP were separated by high‐performance liquid chromatography techniques and detected by cross‐reacting antibodies. Identification of progestins was achieved by comparing the identity of peaks of the samples with a standard. In E. z. hartmannae progesterone, values reached 50 ng/mL at the beginning of pregnancy and dropped to levels below 1 ng/mL during the second half of pregnancy. In contrast, 5α‐DHP increased up to 123 and 183 ng/mL during late pregnancy in E. z. hartmannae and E. burchelli, respectively. In E. grevyi, 5α‐DHP levels of 368 ng/mL were obtained during pregnancy, whereas progesterone values were similar in pregnant and non‐pregnant individuals. These marked differences in the course of progesterone and 5α‐DHP levels point to the importance of 5α‐DHP for pregnancy maintenance in zebras. Zoo Biol 18:325–333, 1999. © 1999 Wiley‐Liss, Inc.     

Insulin Action on Expression of Novel Adipose Genes in Healthy and Type 2 Diabetic Subjects

Objective: Adipose tissue secretes several molecules that may participate in metabolic cross‐talk to other insulin‐sensitive tissues. Thus, adipose tissue is a key endocrine organ that regulates insulin sensitivity in other peripheral insulin target tissues. We have studied the expression and acute insulin regulation of novel genes expressed in adipose tissue that are implicated in the control of whole body insulin sensitivity. Research Methods and Procedures: Expression of adiponectin, c‐Cbl—associated protein (CAP), 11‐β hydroxysteroid dehydrogenase type 1 (11β‐HSD‐1), and sterol regulatory element binding protein (SREBP)‐1c was determined in subcutaneous adipose tissue from type 2 diabetic and age‐ and BMI‐matched healthy men by real‐time polymerase chain reaction analysis. Results: Expression of adiponectin, CAP, 11β‐HSD‐1, and SREBP‐1c was similar between healthy and type 2 diabetic subjects. Insulin infusion for 3 hours did not affect expression of CAP, 11β‐HSD‐1, or adiponectin mRNA in either group. However, insulin infusion increased SREBP‐1c expression by 80% in healthy, but not in type 2 diabetic, subjects. Discussion: Our results provide evidence that insulin action on SREBP‐1c is dysregulated in adipose tissue from type 2 diabetic subjects. Impaired insulin regulation on gene expression of select targets in adipose tissue may contribute to the pathogenesis of type 2 diabetes.     

Increased Cortisol Bioavailability,Abdominal Obesity,and the Metabolic Syndrome in Obese Women

Objective: This study was conducted to obtain a detailed profile of hypothalamo‐pituitary‐adrenal (HPA) axis activity and reactivity and its differential relationships with body fat distribution and total fat mass in premenopausal obese women. Research Methods and Procedures: Cortisol responses to stimulation (awakening, food intake, exercise) and suppression (0.25 mg dexamethasone), cortisol metabolism, and tissue sensitivity to glucocorticoids were studied in 53 premenopausal obese women grouped according to their waist‐to hip ratio: women with abdominal body fat distribution (A‐BFD; n = 31) and women with peripheral fat distribution (P‐BFD; n = 22). Results: Comparatively, A‐BFD women had 1) lower awakening salivary cortisol levels; 2) increased salivary responsiveness to a standardized lunch; 3) similar pituitary sensitivity to dexamethasone but decreased sensitivity of monocytes to dexamethasone; 4) similar 24‐hour urinary free cortisol but increased 24‐hour urinary ratio of cortisone‐to‐cortisol; and 5) no difference in corticosteroid binding protein parameters. Discussion: Although abdominal obesity is not very different from generalized obesity in terms of HPA function, subtle variations in HPA axis activity and reactivity are evidenced in A‐BFD premenopausal obese women.     

Sympathetic Regulation of Glucose Uptake by the α1‐Adrenoceptor in Human Obesity

Objective: To investigate the involvement of α₁‐adrenoceptors in the sympathetic regulation of glucose uptake in human adipocytes. Research Methods and Procedures: Twenty‐four severely obese subjects participated in this study. The microdialysis technique was used to determine interstitial glucose concentration after stimulation of abdominal subcutaneous adipose tissue with the α₁‐agonist norfenefrine, the α_{1, 2}β‐agonist norepinephrine, and both agents in combination with the α₁‐antagonist urapidil. The effect of β‐adrenoceptor stimulation was assessed by orciprenaline. Changes in local blood flow were determined using the ethanol escape technique. Results: Both norfenefrine and norepinephrine induced a concentration‐dependent decrease of interstitial glucose concentration, with a greater decrease observed with norepinephrine. Preperfusion of adipose tissue with urapidil inhibited glucose decrease. The inhibition was overcome with high concentrations of norfenefrine and norepinephrine, respectively. Both adrenergic agents induced tachyphylaxia. Urapidil enhanced extracellular glucose level at high concentration. Blood flow decreased in the presence of norfenefrine and norepinephrine but increased in response to urapidil. The accelerated blood flow due to urapidil was counteracted by norepinephrine and norfenefrine. Orciprenaline decreased interstitial glucose concentration and increased nutritive blood flow. The observed changes in blood flow induced by adrenergic agents were not related to glucose uptake. Discussion: The stimulatory effect of the sympathetic nerves on glucose uptake in subcutaneous adipose tissue appears to be mediated by the α₁‐adrenoceptor. Norepinephrine enhances glucose entry into adipocytes independently of insulin action. In obese subjects with insulin resistance, the α₁‐adrenergic receptor may provide an important alternative pathway for glucose uptake.     

Progesterone 5β‐reductase genes of the Brassicaceae family as function‐associated molecular markers

This study aimed to define progesterone 5β‐reductases (P5βR, EC 1.3.99.6, enone 1,4‐reductases) as function‐associated molecular markers at the plant family level. Therefore cDNAs were isolated from 25 Brassicaceae species, including two species, Erysimum crepidifolium and Draba aizoides, known to produce cardiac glycosides. The sequences were used in a molecular phylogeny study. The cladogram created is congruent to the existing molecular analyses. Recombinant His‐tagged forms of the P5βR cDNAs from Aethionema grandiflorum, Draba aizoides, Nasturtium officinale, Raphanus sativus and Sisymbrium officinale were expressed in E. coli. Enone 1,4‐reductase activity was demonstrated in vitro using progesterone and 2‐cyclohexen‐1‐one as substrates. Evidence is provided that functional P5βRs are ubiquitous in the Brassicaceae. The recombinant P5βR enzymes showed different substrate preferences towards progesterone and 2‐cyclohexen‐1‐one. Sequence comparison of the catalytic pocket of the P5βR enzymes and homology modelling using Digitalis lanata P5βR (PDB ID: 2V6G) as template highlighted the importance of the hydrophobicity of the binding pocket for substrate discrimination. It is concluded that P5βR genes or P5βR proteins can be used as valuable function‐associated molecular markers to infer taxonomic relationship and evolutionary diversification from a metabolic/catalytic perspective.     

Effects of hydroxy‐delta‐5‐steroid dehydrogenase, 3 beta‐ and steroid delta‐isomerase 1 polymorphisms on fat androstenone level and gene expression in Duroc pigs

A high level of androstenone in porcine adipose tissue is a major factor contributing to boar taint. Porcine hydroxy‐delta‐5‐steroid dehydrogenase, 3 beta‐ and steroid delta‐isomerase 1 (3β‐HSD, also known as HSD3B1) plays a key role in the hepatic metabolism that catalyzes androstenone to β‐androstenol. Therefore, 3β‐HSD is a candidate gene for boar taint. This study aimed to investigate functional 3β‐HSD polymorphisms in Duroc pigs. We found eight single nucleotide polymorphisms (SNPs) in the full‐length porcine 3β‐HSD. Four of the SNPs had restriction enzyme sites, and we genotyped them in 147 uncastrated male Duroc pigs using a polymerase chain reaction–restriction fragment length polymorphism method. Pigs with the GG genotype at the g.165262G>A locus (SNP5) had significantly lower androstenone levels than did those with other genotypes (P = 0.030). SNP5 also was associated with differences in 3β‐HSD mRNA levels: pigs with the GG genotype had higher levels than those with other genotypes (P = 0.019). The SNP5 polymorphism could affect the hepatic catabolism of androstenone and consequently impact androstenone accumulation in the adipose tissue. Therefore, SNP5 in the 3β‐HSD of Duroc pigs could be a useful selective marker for decreasing boar taint.     

Association of bovine β‐casein protein variant I with milk production and milk protein composition

The aim of this study was to detect new polymorphisms in the bovine β‐casein (β‐CN) gene and to evaluate association of (new) β‐CN protein variants with milk production traits and milk protein composition. Screening of the β‐CN gene in genomic DNA from 72 Holstein Friesian (HF) bulls resulted in detection of 19 polymorphisms and revealed the presence of β‐CN protein variant I in the Dutch HF population. Studies of association of β‐CN protein variants with milk composition usually do not discriminate protein variant I from variant A2. Association of β‐CN protein variants with milk composition was studied in 1857 first‐lactation HF cows and showed that associations of protein variants A2 and I were quite different for several traits. β‐CN protein variant I was significantly associated with protein percentage and protein yield, and with α_s1‐casein (α_s1‐CN), α_s2‐casein (α_s2‐CN), κ‐casein (κ‐CN), α‐lactalbumin (α‐LA), β‐lactoglobulin (β‐LG), casein index and casein yield. Inferring β‐κ‐CN haplotypes showed that β‐CN protein variant I occurred only with κ‐CN variant B. Consequently, associations of β‐κ‐CN haplotype IB with protein percentage, κ‐CN, α‐LA, β‐LG and casein index are likely resulting from associations of κ‐CN protein variant B, while associations of β‐κ‐CN haplotype IB with α_s1‐CN and α_s2‐CN seem to be resulting from associations of β‐CN variant I.     

Histamine Receptor and its Regulation of Energy Metabolism

In a series of studies on brain functions of histamine, probes to manipulate activities of histaminergic neuronal systems were applied to assess histaminergic function in non-obese normal, and lean and obese Zucker rats. Food intake was suppressed by both activation of H₁-receptors and inhibition of H₃-receptors in the ventromedial hypothalamic nucleus (VMH) and the paraventricular nucleus, each of which is a satiety center. Feeding circadian rhythm was decreased in its amplitude through histaminergic modulation in the hypothalamus. Histamine neurons in the mesencephalic trigeminal nucleus (Me5) were involved in regulation of masticatory functions, particularly eating speed, while histamine-containing neurons in the VMH controlled intake volume of meals. Energy deficiency in the brain enhanced satiation through histaminergic activation of VMH neurons, which in turn produced glycogenolysis in the hypothalamus to maintain homeostatic control of glucose supply. A very-low-calorie conventional Japanese diet, which is a fiber rich and low energy food source, enhanced satiation by increased mastication and because of the low energy supply of the diet. Hypothalamic histamine neurons were activated by high ambient temperature and also by interleukin-1β, an endogenous pyrogen, to maintain homeostatic thermoregulation. Behavioral and metabolic abnormalities of Zucker obese rats were mediated by a deficit in hypothalamic neuronal histamine, and the Zucker rat was evaluated as an animal model of histamine deficiency. Transplantation of the lean fetal hypothalamus into the third cerebroventricle of host obese Zuckers attenuated the abnormalities.     

The N‐terminal tripeptide of insulin‐like growth factor‐I protects against β‐amyloid‐induced somatostatin depletion by calcium and glycogen synthase kinase 3β modulation

The protective effects of insulin‐like growth factor I on the somatostatin (SRIF) system in the temporal cortex after β‐amyloid (Aβ) injury may be mediated through its N‐terminal tripeptide glycine‐proline‐glutamate (GPE). GPE is cleaved to cyclo[Pro‐Gly] (cPG), a metabolite suggested to mediate in neuroprotective actions. We evaluated the effects of GPE and cPG in the temporal cortex of Aβ25–35‐treated rats on SRIF and SRIF receptor protein and mRNA levels, adenylyl cyclase activity, cell death, Aβ25–35 accumulation, cytosolic calcium levels ([Ca²⁺]_c) and the intracellular signaling mechanisms involved. GPE and cPG did not change Aβ25–35 levels, but GPE partially restored SRIF and SRIF receptor 2 protein content and mRNA levels and protected against cell death after Aβ25–35 insult, which was coincident with Akt activation and glycogen synthase kinase 3β inhibition. In addition, GPE displaced glutamate from NMDA receptors and blocked the glutamate induced rise in cytosolic calcium in isolated rat neurons and moderately increased Ca²⁺ influx per se. Our findings suggest that GPE, but not its metabolite, mimics insulin‐like growth factor I effects on the SRIF system through a mechanism independent of Aβ clearance that involves modulation of calcium and glycogen synthase kinase 3β signaling.