The significance of duration of salt loading on cardiovascular response and urinary excretion of catecholamine in rats

To analyze the conflicting data on the relationship between sodium intake and catecholamine release, the effect of the duration of high sodium loading on cardiovascular response and catecholamine release was examined in conscious rats. Urinary excretions of norepinephrine (NE), and dopamine (DA) were measured frequently over a 4 week period. Male Wistar rats at 4 weeks of age were given a diet containing either basal (0.3%) or high (3.1%) sodium content. Systolic blood pressure was measured weekly by the tail cuff method. Twenty-four hour urine collections were made for analysis of catecholamines in metabolic cages every other day during the initial 2 weeks and once a week in the following 2 weeks of salt loading. High sodium intake resulted in a rise in blood pressure and a reduction in heart rate. Bradycardia was significant during the initial 2 weeks and not significant during the following 2 weeks after the initiation of salt loading. Urinary excretion of NE did not change during the initial 2 weeks of salt loading but increased significantly following the 2 week period after salt loading. Urinary excretion of DA increased diphasically, showing the first peak at 1 week after salt loading and the second peak at 4 weeks after the initiation of salt loading. These results suggest that the heart rate and urinary excretion of catecholamine are influenced by the duration of salt loading. When we estimate the effect of salt loading on cardiovascular response and urinary excretion of catecholamine, we should draw attention to the importance of the duration of salt loading, because this duration of time further elicites delayed response in the sympathetic nervous system.     

Plasma catecholamines and urinary excretion of their main metabolites in three models of portal hypertension

We have measured, by a specific radioenzymoassay, the plasma concentration of dopamine (DA) and norepinephrine (NE) and by gas chromatography the urinary excretion of some catecholamine metabolites (HVA, homovanillic acid, DOPAC, dihydroxyphenyl acetic acid; VMA, vanilmandelic acid, and DOPEG, dihydroxyphenyl glycol) in three groups of rats with portal hypertension: cirrhotic rats (CR), rats with progressive portal hypertension (PPH) and rats with progressive hepatic congestion (PHC). The three groups of rats had portal hypertension. PPH and PHC had also intrahepatic hypertension. CR rats showed an increased urinary excretion of NE and DA metabolites with a normal plasma concentration of these catecholamines, suggesting an increased turnover of NE and DA in this experimental model. PPH animals had a high plasma DA concentration with a decreased urinary excretion of catecholamine metabolites. PHC showed high plasma DA and NE levels with normal or increased urinary excretion of its metabolites. These results suggest that an increased neural activity is present in the early stages of experimental cirrhosis in rats and this alteration does not seem directly related to the portal hypertension but perhaps to the intrahepatic hypertension or to the hepatocellular damage.     

Free, glucuronide, and sulfate catecholamines in the rat: effect of hypoxia

The formation and excretion of conjugated catecholamines (CA) was studied in conscious rats after sympathetic stimulation by hypoxia (5.5-6% O2, 4 h). Hypoxia induced a rapid and intense increase of free epinephrine (E, X 12) and norepinephrine (NE, X 6) but only a limited enhancement of free dopamine (DA, X 2). Sulfate conjugates of E and NE had kinetics similar to the free forms, while glucuronides were only moderately and lately altered. In contrast to free and sulfated DA, DA glucuronide, the major plasma conjugate, was decreased (-25%). This result suggests that DA glucuronide, unlike other CA conjugates, is not related to detoxication but might supply a CA precursor. Urinary conjugates badly reflected plasma conjugates. In normoxic controls, CA conjugates prevailed in the plasma, whereas the free amines prevailed in the urine. Hypoxia increased mainly the excretion of E and NE glucuronide but not of the free amines. Urinary DA, free or conjugated, was decreased (-25%), a result in keeping with plasma DA glucuronide only. The poor relations between plasma and urine catecholamines pinpoint the importance of the kidney in CA handling.     

Effects of Handling or Immobilization on Plasma Levels of 3,4-Dihydroxyphenylalanine, Catecholamines, and Metabolites in Rats

In conscious animals, handling and immobilization increase plasma levels of the catecholamines norepinephrine (NE) and epinephrine (EPI). This study examined plasma concentrations of endogenous compounds related to catecholamine synthesis and metabolism during and after exposure to these stressors in conscious rats. Plasma levels of 3,4-dihydroxyphenylalanine (DOPA), NE, EPI, and dopamine (DA), the deaminated catechol metabolites 3,4-dihydroxyphenylglycol (DHPG), and 3,4-dihydroxyphenylacetic acid (DOPAC), and their O-methylated derivatives methoxyhydroxyphenylglycol (MHPG) and homovanillic acid (HVA) were measured using liquid chromatography with electrochemical detection at 1, 3, 5, 20, 60, and 120 min of immobilization. By 1 min of immobilization, plasma NE and EPI levels had already reached peak values, and plasma levels of DOPA, DHPG, DOPAC, and MHPG were increased significantly from baseline, whereas plasma DA and HVA levels were unchanged. During the remainder of the immobilization period, the increased levels of DOPA, NE, and EPI were maintained, whereas levels of the metabolites progressively increased. In animals immobilized briefly (5 min), elevated concentrations of the metabolites persisted after release from the restraint, whereas DOPA and catecholamine levels returned to baseline. Gentle handling for 1 min also significantly increased plasma levels of DOPA, NE, EPI, and the NE metabolites DHPG and MHPG, without increasing levels of DA or HVA. The results show that in conscious rats, immobilization or even gentle handling rapidly increases plasma levels of catecholamines, the catecholamine precursor DOPA, and metabolites of NE and DA, indicating rapid increases in the synthesis, release, reuptake, and metabolism of catecholamines.     

Decreased Hepatic Insulin Extraction Precedes Overt Noninsulin Dependent (Type II) Diabetes in Obese Monkeys

Many obese middle-aged rhesus monkeys (Macaca mulatta) spontaneously develop noninsulin dependent diabetes mellitus (NIDDM). Basal hyperinsulinemia and increased stimulated plasma insulin levels are associated with this obesity and precede the onset of overt diabetes. The present studies sought to determine the relative contributions of enhanced insulin secretion and of reduced insulin clearance to this early obesity-associated hyperinsulinemia. Direct simultaneous measurement of portal and jugular vein insulin levels in two normal monkeys showed a constant rate of hepatic insulin extraction of 56±3% over the range of peripheral insulin levels from 351±113 to 625±118 pmol/L. In 33 additional monkeys ranging from normal to diabetic, basal C-peptide levels were examined as an indicator of β-cell secretion and the molar ratio of plasma C-peptide to insulin (C/I ratio) under basal steady state conditions calculated as an index of hepatic insulin extraction. Well in advance of overt diabetes, there was a progressive decline of 67% in the apparent hepatic insulin extraction rate in association with increased obesity and plasma insulin levels. Basal insulin levels and hepatic insulin extraction returned toward normal in monkeys with impaired glucose tolerance and in those with overt diabetes. We conclude that reduced insulin disposal, probably due to reduced hepatic extraction of insulin, in addition to increased β-cell activity, contributes to the development of basal hyperinsulinemia in obese rhesus monkeys progressing toward NIDDM. In addition, in overt diabetes, normal hepatic insulin extraction in the presence of limited β-cell secretion may exacerbate the hypoinsulinemic state. (OBESITY RESEARCH 1993; 1:252–260)     

Suppression of norepinephrine secretion by dopamine in children with neuroblastoma: evidence for precursor inhibition in catecholamine pathway

To elucidate catecholamine (CA) secretory dynamics in neuroblastoma, urinary excretion of CAs and their metabolites was serially measured in 6 patients aged 3 months to 3 years before and during treatment. After tumor extirpation, increased urinary CAs were promptly normalized; the reduction reflected the amount of CA production from the tumor. Urinary dopamine (DA) showed the most prominent reduction, whereas DA content in the tumor was very small, indicating that the DA produced was immediately released from the tumor and metabolized in extra-tumor tissues. In contrast, patients receiving chemotherapy continued to excrete excess DA and homovanillic acid (HVA), which were increased further at recidivation. One patient showed an inverse correlation between DA and norepinephrine (NE) excretion; a decrease in DA was associated with an increase in NE and plasma DA-beta-hydroxylase (DBH) activity. A similar inverse correlation was also noted between NE and vanillylmandelic acid (VMA) or 3-methoxy-4-hydroxyphenylglycol (MHPG) excretion, while HVA and dihydroxyphenylacetic acid (DOPAC) were positively correlated with DA excretion. Urinary HVA and VMA were lineally correlated but in a patient excreting an enormous amount of DA, urinary VMA was markedly suppressed in terms of HVA excretion. Excessive DA induced an increase in renal water output but did not enhance Na and K excretion. These results indicate that endogenous DA overload in neuroblastoma inhibits NE production by suppressing DBH activity as well as by forming VMA and MHPG. This precursor regulation appears to be the characteristic of the CA metabolic pathway.     

Fasting and hypothalamic catecholamines in goldfish

Hypothalamic catecholamines and their metabolites have been studied after 7 days starvation and starvation plus 1 day refeeding in goldfish Carassius auratus. A reduction of norepinephrine (NE) and dopamine (DA) content (21 and 28%, respectively) together with an increase (53%) of NE turnover, without significant modifications of DA turnover was observed following 7 days starvation. These data indicate that NE and DA are involved in the hypothalamic response to fasting in fish. Different mechanisms can be suggested, that is, an activation of noradrenergic system and a decrease of dopaminergic system by fasting. NE would stimulate food intake, whereas DA would inhibit it.     

Resistance of obese and non-obese, spontaneously hypertensive rats to alloxan-induced diabetes

Male, 5 months old, massively obese, spontaneously hypertensive rats (Obese/SHR) were given 10 mg alloxan/100 g b.w., s.c., to induce diabetes. Control Obese and non-obese/SHR were given saline. Insulin therapy was withheld. All of the animals were killed at 6 months of age. Alloxan caused a slight but statistically significant increase in blood pressure, pituitary and adrenal glandular hyperplasia, hyperlipidemia, hyperglycemia, and increased BUN levels. The giant sized islets of Langerhans in Obese/SHR showed only partial degranulation of the insulin-producing beta cells concomitant with residual but apparently adequate blood insulin levels, whereas the islets of non-obese/SHR exhibited virtually total beta cell degranulation and only trace amounts of blood insulin. The alloxanized, non-obese rats were severely emaciated; the alloxanized Obese/SHR maintained their obesity. Alloxan-treated, Obese and non-obese/SHR manifested gross and microscopic degenerative changes suggesting acceleration of the normal aging process. The genetically-programmed pathogenesis of diabetes, obesity, hypertension, and Cushingoid pathophysiology of Obese/SHR may be due to hyperadrenocorticism.     

Relationships Between Catecholamine Levels and Stress or Intelligence

Catecholamines, including epinephrine (E), norepinephrine (NE), and dopamine (DA), are associated with the response to stressful conditions. However, the relationships of catecholamines with intelligence and their interactions with stress remain unclear. This study assessed stress, intelligence quotient (IQ), and catecholamine levels in 70 healthy subjects to elucidate associations between catecholamines and stress, and between catecholamines and IQ. Additionally, the associations of catecholamines with stress and IQ were analyzed according to hemispheric dominance using the Brain Preference Indicator (BPI). There were positive correlations between the NE/E ratio and the somatization of stress but negative correlations between the E/NE ratio and the somatization of stress among the total number of subjects. In the right-brain-dominant group, a high E/DA ratio was correlated with low levels of stress, somatization and depression, and high NE/E and DA/E ratios were associated with high levels of somatization. In the left-brain-dominant group, high E levels were correlated with low levels of depression. In the total subjects, there were positive correlations between the NE/E and DA/E ratios and the sum of the vocabulary, arithmetic, picture arrangement, and block design IQ subtests. Thus, these catecholamines were associated with stress and IQ, which suggests that the autonomic functional regulation of catecholamine levels in relation to stress may also affect cognitive functions related to intelligence in the brain. Furthermore, the relationships between catecholamines and stress or IQ differed depending on hemispheric dominance, which suggests that the present results could be used to inform the development of personalized therapies based on hemispheric asymmetry.

     

Rodent brain and heart catecholamine levels are altered by different models of copper deficiency

Limiting dopamine beta-monooxygenase results in lower norepinephrine (NE) and higher dopamine (DA) concentrations in copper-deficient Cu- tissues compared to copper-adequate Cu+ tissues. Mice and rat offspring were compared to determine the effect of differences in dietary copper Cu deficiency started during gestation or lactation on catecholamine, NE and DA, content in brain and heart. Holtzman rat and Hsd:ICR (CD-1) outbred albino mouse dams were fed a Cu- diet and drank deionized water or Cu supplemented water. Offspring were sampled at time points between postnatal ages 12 and 27. For both rat and mouse Cu- tissue, NE and DA changes were greater at later ages. Though Cu restriction began earlier in rats than mice in the gestational model, brain NE reduction was more severe in Cu- mice than Cu- rats. Cardiac NE reduction was similar in Cu- rodents in the gestation models. In the lactation model, mouse catecholamines were altered more than rat catecholamines. Furthermore, following lactational Cu deficiency Cu- mice were anemic and exhibited cardiac hypertrophy, Cu- rats displayed neither phenotype. Within a species, changes were more severe and proportional to the length of Cu deprivation. Lactational Cu deficiency in mice had greater consequences than in rats.     

多囊卵巢综合征肥胖患者血清维生素D、铁蛋白水平、sICAM-1与胰岛素抵抗、糖脂代谢指标的相关性

摘要 目的：探讨多囊卵巢综合征（PCOS）肥胖患者血清维生素D、铁蛋白、可溶性细胞间粘附分子-1（sICAM-1）水平与胰岛素抵抗、糖脂代谢指标的相关性。方法：2018年8月到2021年11月,选择在本院妇科诊治的PCOS患者65例作为研究对象,分为PCOS肥胖组（n=30,体重指数＜28 kg/m²）和PCOS非肥胖组（n=35,体重指数<28 kg/m²）。检测与计算两组清维生素D、铁蛋白、sICAM-1、胰岛素抵抗、糖脂代谢指标并进行相关性分析。结果：两组的血清甲状腺素（T4）、促甲状腺激素（TSH）与泌乳素（PRL）对比差异无统计学意义（P>0.05）,肥胖组的血清促黄体生成素（LH）、促卵泡生成素（FSH）、睾酮（T）水平高于非肥胖组（P<0.05）。肥胖组的血清铁蛋白、sICAM-1水平高于非肥胖组,血清维生素D水平低于非肥胖组（P<0.05）。肥胖组的胰岛素抵抗指数（HOMA-IR）、胰岛素水平（FINS）、甘油三酯（TG）、总胆固醇（TC）、低密度脂蛋白胆固醇（LDL-C）较非肥胖组,高密度脂蛋白胆固醇（HDL-C）低于非肥胖组（P<0.05）。在PCOS肥胖患者中,Pearson分析显示血清维生素D、铁蛋白、sICAM-1与胰岛素抵抗、糖脂代谢指标都存在相关性（P<0.05）。结论：PCOS肥胖患者与非肥胖患者的血清维生素D、铁蛋白、sICAM-1、胰岛素抵抗、糖脂代谢指标水平存在差异,血清维生素D、铁蛋白、sICAM-1水平与胰岛素抵抗、糖脂代谢指标存在相关性。     

Similar incretin secretion in obese and non-obese Japanese subjects with type 2 diabetes

Incretin secretion and effect on insulin secretion are not fully understood in patients with type 2 diabetes. We investigated incretin and insulin secretion after meal intake in obese and non-obese Japanese patients with type 2 diabetes compared to non-diabetic subjects. Nine patients with type 2 diabetes and 5 non-diabetic subjects were recruited for this study. Five diabetic patients were obese (BMI ? 25) and 4 patients were non-obese (BMI < 25). In response to a mixed meal test, the levels of immunoreactive insulin during 15-90 min and C-peptide during 0-180 min in non-obese patients were significantly lower than those in obese patients. Total GLP-1 and active GIP levels showed no significant difference between obese and non-obese patients throughout the meal tolerance test. In addition, there were no significant differences between diabetic patients and non-diabetic subjects. In conclusion, incretin secretion does not differ between Japanese obese and non-obese patients with type 2 diabetes and non-diabetic subjects.     

Urinary C-peptide as a method for monitoring body mass changes in captive bonobos (Pan paniscus)

In recent years methodological improvements have allowed for more precise estimates of nutrient intake in wild primates. However, estimates of energetic condition have remained relatively imprecise due to the difficulties of estimating digestive efficiency and energy expenditure in these animals. In the absence of a reliable intake-expenditure calculation, a method is needed that directly links changes in energetic condition, such as body mass, to physiological changes that can be detected via markers in body excretions such as urine or feces. One promising marker is C-peptide, a metabolic byproduct of insulin synthesis. Here we present the results of a food restriction experiment carried out in a group of captive bonobos (Pan paniscus). We measured changes in food availability and body mass and determined urinary C-peptide levels with the help of a time-resolved fluoroimmunoassay routinely used for measuring C-peptide in human blood. Urinary C-peptide levels decreased during a period of food restriction and increased again when food availability was continuously increased. During this refeeding phase an increase in body mass was significantly correlated with an increase in urinary C-peptide levels. Our results suggest that urinary C-peptide levels are an accurate indicator of individual energy balance. In conclusion, measuring C-peptide in urine is a promising method to quantify the energetic condition of wild apes.     

Unexpected regulation of hypothalamic neuropeptide Y by food deprivation and refeeding in the Zucker rat.

Neuropeptide Y strongly stimulates food intake when it is injected in the hypothalamic paraventricular (PVN) and ventromedian (VMN) nuclei. In Sprague-Dawley (SD) rats, NPY synthesis in the arcuate nucleus (ARC) is increased by food deprivation and is normalized by refeeding. We have previously shown that the obese hyperphagic Zucker rat is characterized by higher NPY concentrations in this nucleus. NPY might therefore play an important role in the development of hyperphagia. The aim of the present study was to determine if the regulation by the feeding state works in the obese Zucker rat. For this purpose, 10 weeks-old male lean (n = 30) and obese (n = 30) Zucker rats were either fed ad libitum, either food-deprived (FD) for 48 hours or food-deprived for 48 h and refed (RF) for 6 hours. NPY was measured in several microdissected brain areas involved in the regulation of feeding behavior. NPY concentrations in the ARC was about 50% greater in obese rats than in lean rats (p less than 0.02) whatever the feeding state. In the VMN, NPY concentrations were higher in the lean FD rats than in the obese FD rat (p less than 0.001). Food deprivation or refeeding did not modify NPY in the ARC, in the VMN or in the dorsomedian nucleus whatever the genotype considered. On the other hand, food deprivation induced a significant decrease in NPY concentrations in the PVN of lean rats. This decrease was localized in the parvocellular part of this nucleus (43.0 +/- 1.9 (FD) vs 54.2 +/- 2.1 (Ad lib) ng/mg protein; p less than 0.005). Ad lib levels were restored by 6 hours of refeeding. These variations were not observed in the obese rat. The regulation of NPY by the feeding state in the Zucker rat was therefore very different from that described in the SD rats. Strain or age of the animals used might explain these differences. High NPY levels and absence of regulation in obese Zucker rats could contribute to the abnormal feeding behavior of these rats.     

Twenty-four-hour serum growth hormone, insulin, C-peptide and blood glucose profiles and serum insulin-like growth factor-I concentrations in women with polycystic ovaries.

Raised insulin levels are now recognized as a characteristic feature of women with polycystic ovaries (PCO), and hyperinsulinism has been shown to stimulate androgen production in such women. We have, however, recently shown that hyperinsulinaemia is present only in the obese subjects with PCO in whom insulin concentrations correlate with those of luteinizing hormone. We therefore studied 24-hour blood profiles of growth hormone (GH) and insulin-like growth factor-I (IGF-I) in obese and non-obese women with PCO, for comparison with their levels of insulin, C-peptide and other hormones, such as androgens which are known to be disturbed in PCO. Mean 24-hour GH levels were higher overall in PCO than in control subjects, although the difference was not significant. When, however, a separate analysis was made in obese as compared with non-obese PCO patients, GH concentrations were significantly higher in the non-obese group than in the obese (p = 0.0005). There was a significant negative correlation between body mass index and mean 24-hour GH concentrations (r = -0.641; p = 0.0006). IGF-I concentrations were however similar in the PCO group overall and in controls, as well as in the obese and non-obese PCO patients. The 24-hour blood glucose profile pattern was significantly different in PCO women from controls (p = 0.009), with absence of post-prandial peaks in blood glucose concentrations. These changes were most marked in the non-obese PCO group, who also had significantly lower blood glucose levels than either controls or obese PCO subjects.(ABSTRACT TRUNCATED AT 250 WORDS)     

Changes in catecholamine levels and turnover rates in hypothalamic,vocal control,and auditory nuclei in male zebra finches during development

The catecholamines norepinephrine (NE) and dopamine (DA) have been implicated in the sexual differentiation of brain and behavior and in species-specific learning in several species. To determine if these neurotransmitters might be involved in sexual differentiation of the vocal control system and song learning in male zebra finches, NE and DA levels and turnover rates were quantified in 10 behaviorally relevant brain nuclei [6 vocal control (VCN), 2 auditory (AN), and 2 hypothalamic (HN)] at four critical points during sexual differentiation of the VCN and the period of song learning, 25, 35, 55, and 90 days of age. Some birds were pretreated with α-methyl-para-tyrosine (αMPT) to allow estimation of NE and DA turnover rates. NE and DA levels in microdissected nuclei were quantified using high-performance liquid chromatography with electrochemical detection. αMPT treatment suppressed catecholamine synthesis just as effectively in juveniles as it does in adults and proved an effective method for estimating NE and DA turnover rates. Patterns of NE and DA function in most VCN and AN over development were quite different from those in HN in which NE and DA function changed gradually and showed no striking peaks. NE turnover rates changed significantly over development in all six VCN [nucleus interfacialis (Nlf), high vocal center (HVC), nucleus robustus of the archistriatum (RA), dorsomedial portion of the intercollicular nucleus (DM), Area X of the parolfactory lobe, and lateral portion of the magnocellular nucleus of the anterior neostriatum (IMAN)]; one AN [nucleus mesencephalicus lateralis pars dorsalis (MLd)], and one HN [preopticus anterior (POA)]. NE levels changed significantly in two VCN (Nlf and Area X). In Nlf, RA, Area X, IMAN, and MLd, NE levels and/or turnover rates showed a striking peak at day 25, which was not seen in HN. Both DA levels and turnover rates changed profoundly over development in 5 of 6 VCN (Nlf, RA, DM, Area X, and IMAN) and both AN (MLd and Field L). These nuclei showed striking peaks in DA levels and turnover rates, primarily on day 35 and/or 55, which then declined profoundly by day 90. This contrasted with the minimal change in DA turnover rates seen in one HN (POA) and the sixth VCN, HVC. In several VCN and AN, NE and DA levels and turnover rates during development reached levels never seen in adult males. Previous research has shown that catecholamine function is heightened in VCN during development compared to surrounding tissues. Our data demonstrate that NE and DA function during development shows pronounced peaks in most VCN not seen in HN. This is interesting because both VCN and HN are hormone sensitive, and both show hormone-modulated NE and DA function in adult males. The timing of these peaks suggests that increased catecholaminergic function may be involved in sexual differentiation of the VCN and song learning in finches. © 1998 John Wiley & Sons, Inc. J Neurobiol 34: 329–346, 1998     

ALTERATIONS IN THE TURNOVER OF BRAIN NOREPINEPHRINE AND DOPAMINE IN ALCOHOL-DEPENDENT RATS

Abstract— The turnover of brain norepinephrine (NE) and dopamine (DA) was studied in five groups of male Sprague-Dawley rats under different conditions of alcohol treatment: no treatment, acute treatment while intoxicated, acute treatment subsequent to elimination of alcohol from the blood, alcohol-dependence while still intoxicated and alcohol-dependence during a withdrawal syndrome. Turnover was determined from the rate of depletion of brain catecholamine levels after inhibition of tyrosine hydroxylase. In rats given a single dose of alcohol, NE turnover was increased, while DA turnover was unaffected during the few first hours after treatment. After that time the turnover of both NE and DA was reduced. In alcohol-dependent rats, whether intoxicated or undergoing a withdrawal syndrome, the turnover of NE was increased, while that of DA was decreased. These data suggest that catecholamines may mediate some of the symptoms of the alcohol withdrawal syndrome in the rat.     

Plasma glucose and insulin levels in monkeys anticipating feeding

To see whether plasma glucose or insulin changed in anticipation of feeding, we provided seven rhesus monkeys with four-hour access to food every other day. Blood was sampled before and during a 30-minute signal which ended with food availability and before and during a 30-minute signal which was not closely and reliably linked with food availability. Plasma insulin showed no evidence of conditioning. Plasma glucose was higher during the signal than prior to the signal in both experiments. This probably reflects the arousing nature of the signal rather than appetitive-associated learning. However, the differences, while statistically significant, were probably biologically trivial because they fall within the normal fluctuations of meal-fed monkeys. Under the conditions of this experiments, it appears that conditional changes in glucose and insulin do not reliably occur in monkeys anticipating access to food.     

Effects of l-DOPA on the Concentrations of Free and Sulfoconjugated Cathecholamines in Plasma, Cerebrospinal Fluid, Urine, and Central and Peripheral Nervous System Tissues of the Rat

The effects of subcutaneous injection of L-beta-3,4-dihydroxyphenylalamine (L-DOPA) on the concentrations of the catecholamines and catecholamine sulfates in the central and peripheral nervous systems of the rat were studied. The results showed that free 3,4-dihydroxyphenylethylamine (DA, dopamine) increased rapidly and markedly in the hypothalamus and striatum after L-DOPA but DA sulfate did not change. Increased concentrations of DA sulfate were detected in the CSF and in the plasma, where it reached a concentration of 130.8 +/- 12.8 ng/ml at 2 h, seven times the level of free DA (19.1 +/- 2.9 ng/ml). In the kidney the ratio of DA sulfate to free DA was reversed in favor of free DA. Urine samples of L-DOPA-treated rats showed a higher increase of free DA than DA sulfate, but free norepinephrine (NE) and NE sulfate remained unchanged. Concentrations of free DA and free NE in the adrenal glands of L-DOPA-treated rats showed no change. Adrenal DA sulfate and NE sulfate were not detectable in the control and L-DOPA-treated rats, suggesting that the adrenal glands lack the capacity to take up or store catecholamines and their sulfate counterparts from the plasma.     

Decrease of the Obese Gene Expression in Bovine Subcutaneous Adipose Tissue by Fasting

The expression of mRNA of leptin, the product of the obese gene, in bovine adipose tissue was analyzed by a lysate RNase protection assay. The mRNA level was significantly decreased by food deprivation for two days and partially recovered after 3 hr of refeeding, indicating that obese gene expression in the ruminant was regulated by feeding.