The effect of theophylline on the diameter of the afferent glomerular arteriole of the rat]

Agar-agar and indian ink mixture intrarenal injections enable the precise glomerular afferent arteriole diameter and the evaluation of its variations after theophyllin perfusion. The increased diameter (+ 35, 78 %) confirms the peripheral vasodilating theophyllin effect, never to our knowledge proven in situ in the kidney.     

Comparative effect of theophylline on urinary protein excretion in rats during diurnal and nocturanal periods]

In 3 lots of 15 rats, urinary proteins excretion (U.P.E.) during 6 hours periods is compared : 1) daily and nightly in physiological conditions, where U.P.E. increases nightly (+ 97,47%) : 2) daily, before and after theophylline injection, where U.P.E. increases after theophylline injection (+ 78,62%) ; 3) nightly, before and after theophylline injection, where U.P.E. increase is only tiny (+ 3,53%) after theophylline injection. So, in nightly physiological and in daily experimental conditions the important U.P.E. increases can be in part explained by those of renal functions. This result can explain after nightly theophylline injection (where renal functions are already very higher than in daily period) the so small nightly proteinuria increase with the xanthic diuretic ; it cannot be compared to the daily value, because the renal functions cannot increase beyond some limits. Lastly, the present paper exhibits how a pharmacomolecule (as theophylline here) can act differently daily and nightly and open a new investigation field in chronopharmacology of diuretics.     

Effect of cyclic AMP on low density lipoprotein binding and internalization by cultured human fibroblasts

Pretreatment of cultured human fibroblasts by cyclic AMP resulted in a marked decrease in the binding and internalization of the low density lipoproteins (about 55% of controls for cyclic AMP 2.10(-3) M). This effect was dose dependent and increased by theophyllin. DL propranolol, an inhibitor of adenylcyclase, had an opposite effect. Isoproterenol, which stimulates adenylcyclase, reproduced the effect of cyclic AMP. The cholesterol synthesis from [2-14C] acetate was decreased by cyclic AMP, theophyllin and isoproterenol, and increased by propranolol. The incorporation of [1-14C] oleate into cholesteryl esters was reduced by cyclic AMP, theophyllin, isoproterenol and propranolol.     

Dyslipoproteinemia in an inbred rat strain with spontaneous chronic progressive nephrotic syndrome.

Rats of the Milan Normotensive Strain (MNS) develop a dyslipoproteinemia that is associated with a spontaneous, age-dependent and slowly progressive nephropathy characterized by proteinuria and hypoalbuminemia (nephrotic syndrome). We assumed that the MNS strain might be a suitable model for studying the features of nephrotic dyslipoproteinemia and its relationship with proteinuria, hypoalbuminemia, and hepatic apolipoprotein production. Plasma lipoproteins were investigated in MNS rats at various ages (4-48 weeks) and in another rat strain (Milan Hypertensive Strain, MHS), genetically related to MNS but free of nephropathy, that was used as control. In MNS rats, abnormal proteinuria was detectable at 20 weeks and increased 2-fold up to 34 weeks with no reduction of plasma albumin (compensated stage). During this stage we found increased levels of plasma cholesterol (+ 34%), high density lipoprotein-1 (HDL1) (+ 73%), and HDL2 (+ 31%) that were positively correlated with proteinuria but not with plasma albumin. The later stage (34-48 weeks) (nephrotic stage) was characterized by a further increase of proteinuria, moderate hypoalbuminemia (- 25%), a 2-fold increase of plasma cholesterol, triacylglycerols, low density lipoprotein (LDL), and HDL1, and a 1.2-fold increase of HDL2. In this stage the levels of LDL, HDL1, and HDL2 were positively correlated with proteinuria, and negatively correlated with plasma albumin. The most striking change in apolipoproteins was a progressive increase of the relative content of apoA-I in HDL (in 48-week-old MNS rats the A-I/E ratio was 3-fold that found in MHS rats) that was associated with a similar increase of plasma apoA-I. None of these lipoprotein changes were observed in age-matched MHS rats. At the end of the compensated stage, the hepatic levels of A-I, B, A-II, and albumin mRNA were 5.3-, 3.5-, 1.3-, and 2.0-fold, respectively, those found in age-matched MHS rats. During the nephrotic stage, albumin mRNA continued to increase, whereas A-I, B, and A-II mRNAs decreased toward the levels found in age-matched MHS rats. Thus, nephrotic dyslipoproteinemia in MNS rats starts to develop in the compensated stage before the onset of hypoalbuminemia, is characterized by an early elevation of HDL1 + HDL2, and is associated with an increased content of hepatic mRNAs of some apolipoproteins, especially apoA-I. The slow progression of nephrotic syndrome with the long-standing proteinuria and no reduction in plasma albumin renders the MNS strain the most suitable animal model for the study of the effect of proteinuria on plasma lipoprotein metabolism.     

Maternal prolactin inhibition during lactation is associated to renal dysfunction in their adult rat offspring

The renal function of rats whose mothers had hypoprolactinemia at the end of lactation was evaluated during development. Lactating Wistar rats were treated with bromocriptine (BRO, 1?mg twice a day, s.c.) or saline on days 19, 20, and 21 of lactation, and their male offspring were followed from weaning until 180 days old. 1 rat from each of the 12 litters/group was evaluated at 2 time points (90 and 180 days). Body and kidney weights, sodium, potassium, and creatinine were measured. Values were considered significant when p<0.05. Adult BRO-treated offspring presented higher body weight (+10%), lower relative renal weight at 90 and 180 days (-9.2% and -15.7%, respectively), glomerulosclerosis, and peritubular fibrosis. At 90 and 180 days, creatinine clearance was lower (-32% and -30%, respectively), whereas serum potassium was higher (+19% and +29%, respectively), but there were no changes in serum sodium. At 180 days, higher proteinuria (+36%) and serum creatinine levels (+20%) were detected. Our data suggest that prolactin inhibition during late lactation programs renal function damage in adult offspring that develops gradually, first affecting the creatinine clearance and potassium serum levels with further development of hyperproteinuria and higher serum creatinine, without affecting sodium. Thus, precocious weaning programs some components of the metabolic syndrome, which can be a risk factor for further development of kidney disease.     

Effect of theophylline on the glomerular pathway of ferritin macromolecules in rats]

The present microscopic study evaluates the quantitative variations of ferritin particules density within the glomerular ultrastructures after theophyllin perfusion in the Rat. The ferritin particules density increases 3,65 times in the glomerular basement membrane and decreases 3,28 times in the glomerular capillary lumen. So, theophyllin increases considerably the glomerular pathway of the protein macromolecules. This results confirm the increased volumic flow (Jv) and macro-solutes flow (Js') noted with clearance methods and urinary excretion studies.     

Increased cathepsin D-like activity in cortex, tubules, and glomeruli isolated from rats with experimental nephrotic syndrome.

We have examined the activity and distribution of cathepsin D (EC 3.4.23.5), a major renal lysosomal endoproteinase, in the various anatomical and functional areas of normal rat kidney. Cathepsin D-like activities (delta A280/h per mg of protein) in normal rat tissues were: cortex, 0.78 +/- 0.05, n = 37; medulla, 0.62 +/- 0.03, n = 12; papilla, 0.63 +/- 0.04, n = 12; tubules, 0.74 +/- 0.04, n = 28; glomeruli, 0.59 +/- 0.03, n = 28; and liver, 0.41 +/- 0.02, n = 28. Enzyme activity was maximal at pH 3.0-3.5 and inhibited more than 90% by pepstatin (6.7 micrograms/ml), suggesting that the enzyme is cathepsin D. In subsequent experiments we measured cathepsin D-like activity in cortex, tubules and glomeruli isolated from rats with puromycin aminonucleoside (PAN)-induced nephrotic syndrome. Treated animals (15 mg of PAN/100g body wt., intraperitoneally) developed proteinuria beginning 4 days after injection and exceeding 900 mg/24h on day 9. In two separate experiments involving 52 animals we observed a significant increase in cathepsin D-like activity in cortex (+82.7%), tubules (+109.6%) and glomeruli (+54.7%) isolated from PAN-treated rats killed during marked proteinuria (day 9, mean total urinary protein excretion: 937 +/- 94 mg/24h). This increase was observed whether the activity was expressed per mg of DNA or per mg of protein. Increased cathepsin D-like activity was first observed in cortex and tubules coincident with the onset of proteinurea (day 4, mean total urinary protein excretion: 112 +/- 23 mg/24h). In contrast with the significant elevation of renal cathepsin D-like activity, the activity (nmol/h per mg of protein) of alpha-L-fucosidase (EC 3.2.1.51), a non-proteolytic enzyme, was markedly decreased in the identical samples used for the measurement of cathepsin D-like activity: cortex (-46.4%); tubules (-46.1%); and glomeruli (-38.5%). In addition to changes in renal enzyme activities, PAN-treated rats excreted large amounts of cathepsin D-like activity in their urine (beginning on day 3) compared with nearly undetectable cathepsin D-like activity in the urine from control rats. The significant increases in glomerular and tubular cathepsin D activity may reflect an important role for this enzyme in the pathophysiology associated with PAN-induced nephrotic syndrome.     

c-AMP and Morphogenesis of Acetabularia

The c-AMP content has been found to double when Acetabularia develop from 5–10 mm long to grown or almost full-grown algae.
The biological significance of this fact has been approached by studying the effects of drugs known to influence the intracellular c-AMP content on the development of Acetabularia. When grown in the presence of theophyllin or papaverin, inhibitors of phosphodiesterase, the Acetabularia display a striking response during the exponential growth period; the final length, however, is not affected. Both substances increase the c-AMP content of the algea. Isoproterenol, which activates adenylate cyclase in many systems, also influences Acetabularia during the exponential growth period and, in addition, slightly affects cap formation.
The change in c-AMP content in the course of development and the effects of drugs influencing (theophyllin and papaverin) or likely to influence (isoproterenol) the c-AMP content of the algae suggest that this nucleotide plays a role at the time of intense growth.
The same phosphodiesterase activity has been found in the 5–10 mm and the 19–25 mm long algae, whereas two enzymes were found in cap-bearing Acetabularia.
The results are discussed as well as the involvement of c-AMP in the development of this alga.     

Free amino acid pools as effectors of osmostic adjustment in different tissues of the freshwater shrimp macrobrachium olfersii (crustacea, decapoda) during long-term salinity acclimation

To examine osmotic regulation during long-term acclimation to a hyperosmotic medium, hemolymph osmolality, [Na⁺] and total protein, tissue hydration, and free amino acid (FAA) pools in abdominal muscle, gills, central nervous tissue and hemolymph were quantified in the diadromous freshwater (FW) shrimp, Macrobrachium olfersii, during direct exposure to 21‰S seawater over a 20-day period. Hemolymph osmolality and [Na⁺] reach stable maxima within 24 h while total protein is unchanged. Muscle and nerve tissues rapidly lose water while gills hydrate; all tissues attain maximum hydration (+5%) by 5 days, declining to FW values except for gills. Total FAA are highest in muscle, reach a maximum by 2 days (+64%), declining to FW values. Gill FAA increase by 110% after 24 h, diminishing to FW values. Nerve FAA increase 187% within 24 h, and remain elevated. Hemolymph FAA decrease (-75%) after 24 h, stabilizing well below the FW concentration. During acclimation, muscle glycine (+247%), gill taurine (+253%) and proline (+150%), and nerve proline (+426%), glycine (+415%) and alanine (+139%) increase, while hemolymph leucine (-70%) decreases. Total FAA pools contribute 10-20% to intracellular (22-70 mmol/kg) and 0.5-2.4% to hemolymph (3-7 mOsm/kg) osmolalities during direct acclimation from FW. These data emphasize the modest participation of FAA pools in intracellular osmotic regulation during physiological adaptation by M. olfersii to osmotic challenge, accentuating the role of anisosmotic extracellular regulation, suggesting that, during the invasion of freshwater by the Crustacea, dependence on intracellular adjustment employing FAA as osmotic effectors, has become progressively reduced.     

Free amino acid pools as effectors of osmostic adjustment in different tissues of the freshwater shrimp macrobrachium olfersii (crustacea,decapoda) during long-term salinity acclimation

To examine osmotic regulation during long-term acclimation to a hyperosmotic medium, hemolymph osmolality, [Na⁺] and total protein, tissue hydration, and free amino acid (FAA) pools in abdominal muscle, gills, central nervous tissue and hemolymph were quantified in the diadromous freshwater (FW) shrimp, Macrobrachium olfersii, during direct exposure to 21‰S seawater over a 20-day period. Hemolymph osmolality and [Na⁺] reach stable maxima within 24?h while total protein is unchanged. Muscle and nerve tissues rapidly lose water while gills hydrate; all tissues attain maximum hydration (+5%) by 5 days, declining to FW values except for gills. Total FAA are highest in muscle, reach a maximum by 2 days (+64%), declining to FW values. Gill FAA increase by 110% after 24?h, diminishing to FW values. Nerve FAA increase 187% within 24?h, and remain elevated. Hemolymph FAA decrease (?75%) after 24?h, stabilizing well below the FW concentration. During acclimation, muscle glycine (+247%), gill taurine (+253%) and proline (+150%), and nerve proline (+426%), glycine (+415%) and alanine (+139%) increase, while hemolymph leucine (?70%) decreases. Total FAA pools contribute 10–20% to intracellular (22–70?mmol/kg) and 0.5–2.4% to hemolymph (3–7?mOsm/kg) osmolalities during direct acclimation from FW. These data emphasize the modest participation of FAA pools in intracellular osmotic regulation during physiological adaptation by M. olfersii to osmotic challenge, accentuating the role of anisosmotic extracellular regulation, suggesting that, during the invasion of freshwater by the Crustacea, dependence on intracellular adjustment employing FAA as osmotic effectors, has become progressively reduced.     

Proteinuria during Follow-Up Period and Long-Term Renal Survival of Childhood IgA Nephropathy

Background

Proteinuria is the most important risk factor for IgA nephropathy progression. The purpose of this study is to evaluate the long-term outcome and risk factors for poor prognosis in childhood IgA nephropathy.

Methods

Patients who were diagnosed with IgA nephropathy between 1972 and 1992 at the Tokyo Metropolitan Kiyose Children’s Hospital were included. We analyzed risk factors for progression to end-stage kidney disease (ESKD) and chronic renal insufficiency (CRI) using Kaplan-Meier method and multivariate analyses of Cox proportional hazard model.

Results

One hundred patients were included and the median observation period was 11.8 years. Twelve and 17 patients progressed to ESKD and CRI, respectively. The survival probabilities were 90.0% at 10 years and 79.8% at 20 years for ESKD, and 86.1% at 10 years and 72.3% at 20 years for CRI. Notably, patients with heavy proteinuria with hypoalbuminemia during follow-up period showed extremely poor prognosis. In this group, the survival rate at 10 years from ESKD and CRI was 40.6% and 20.8%, respectively. By multivariate analysis, proteinuria at diagnosis and proteinuria during follow-up period were risk factors for ESKD, whereas glomeruli showing mesangial proliferation ≥50% and proteinuria during follow-up period were risk factors for CRI. Patients without heavy proteinuria during follow-up period did not develop CRI and 63% of patients with mild proteinuria during follow-up period showed no proteinuria at the last observation.

Conclusions

The degree of proteinuria during follow-up period is the strongest risk factor for ESKD and CRI.     

Regional brain metabolic activation during craving elicited by recall of previous drug experiences

Cocaine cues elicit craving and physiological responses. The cerebral circuits involved in these are poorly understood. The purpose of this study was to assess the relation between regional brain activation and cocaine cue elicited responses. Thirteen right-handed cocaine abusers were scanned with positron emission tomography (PET) and [F-18] fluorodeoxyglucose (FDG) twice; during an interactive interview about neutral themes and during an interactive interview about cocaine themes designed to elicit cocaine craving. In parallel the behavioral (rated from 0: felt nothing to 10: felt extreme) and cardiovascular responses were recorded. During the cocaine theme interview subjects reported higher self reports for cocaine craving (+2.5+/-3.3, p < or = 0.02) and had higher heart rates (+4.7+/-7.2%, p < or = 0.001), systolic (+4+/-4%, p < or = 0.0001), and diastolic blood pressures (+2.6+/-3.8%, p < or = 0.003) than during the neutral interview. Absolute and relative metabolic values in the orbitofrontal (+16.4+/-17.1%, p < or = 0.005; +11.3+/-14.3%, p < or = 0.008) and left insular cortex (+21.6+/-19.6%, p < or = 0.002; +16.7+/-19.7%, p < or = 0.01) and relative values in cerebellum (+17.9+/-14.8%, p < or = 0.0008) were higher during the cocaine theme than during the neutral theme interview. Relative metabolic values in the right insular region (p < or = 0.0008) were significantly correlated with self reports of cocaine craving. Activation of the temporal insula, a brain region involved with autonomic control, and of the orbitofrontal cortex, a brain region involved with expectancy and reinforcing salience of stimuli, during the cocaine theme support their involvement with craving in cocaine addicted subjects.     

Beta-1 Adrenergic Agonist Treatment Mitigates Negative Changes in Cancellous Bone Microarchitecture and Inhibits Osteocyte Apoptosis during Disuse

The sympathetic nervous system (SNS) plays an important role in mediating bone remodeling. However, the exact role that beta-1 adrenergic receptors (beta1AR) have in this process has not been elucidated. We have previously demonstrated the ability of dobutamine (DOB), primarily a beta1AR agonist, to inhibit reductions in cancellous bone formation and mitigate disuse-induced loss of bone mass. The purpose of this study was to characterize the independent and combined effects of DOB and hindlimb unloading (HU) on cancellous bone microarchitecture, tissue-level bone cell activity, and osteocyte apoptosis. Male Sprague-Dawley rats, aged 6-mos, were assigned to either normal cage activity (CC) or HU (n = 18/group) for 28 days. Animals were administered either daily DOB (4 mg/kg BW/d) or an equal volume of saline (VEH) (n = 9/gp). Unloading resulted in significantly lower distal femur cancellous BV/TV (−33%), Tb.Th (−11%), and Tb.N (−25%) compared to ambulatory controls (CC-VEH). DOB treatment during HU attenuated these changes in cancellous bone microarchitecture, resulting in greater BV/TV (+29%), Tb.Th (+7%), and Tb.N (+21%) vs. HU-VEH. Distal femur cancellous vBMD (+11%) and total BMC (+8%) were significantly greater in DOB- vs. VEH-treated unloaded rats. Administration of DOB during HU resulted in significantly greater osteoid surface (+158%) and osteoblast surface (+110%) vs. HU-VEH group. Furthermore, Oc.S/BS was significantly greater in HU-DOB (+55%) vs. CC-DOB group. DOB treatment during unloading fully restored bone formation, resulting in significantly greater bone formation rate (+200%) than in HU-VEH rats. HU resulted in an increased percentage of apoptotic cancellous osteocytes (+85%), reduced osteocyte number (−16%), lower percentage of occupied osteocytic lacunae (−30%) as compared to CC-VEH, these parameters were all normalized with DOB treatment. Altogether, these data indicate that beta1AR agonist treatment during disuse mitigates negative changes in cancellous bone microarchitecture and inhibits increases in osteocyte apoptosis.     

Differential Changes in the Content of Amino Acid Neurotransmitters in Discrete Regions of the Rat Brain Prior to the Onset and During the Course of Homocysteine-Induced Seizures

Changes in amino acid concentrations were investigated in selected regions of rat brain prior to the onset and during the course of epileptiform seizures induced by L-homocysteine. The concentration of gamma-aminobutyric acid (GABA) decreased preictally in substantia nigra (-18%), caudate putamen (-26%), and inferior colliculus (-46%). After seizure onset, the GABA content was further reduced in substantia nigra (-31%) and additionally in hippocampus (-18%). Preictal taurine levels were elevated in globus pallidus (+26%) and caudate putamen (+13%) but returned to normal after seizure onset. However, in hippocampus, taurine decreased both preictally (-22%) and after seizure onset (-56%). Glycine was reduced preictally only in globus pallidus (-13%). After seizure onset the direction of its concentration change varied in the brain regions studied. Glutamate levels decreased preictally in hippocampus (-10%) and hypothalamus (-46%) but increased in globus pallidus (+14%). Normal levels were detectable after seizure onset in hypothalamus and globus pallidus but a further reduction in hippocampus (-59%) and significant reductions in substantia nigra (-15%) and caudate putamen (-17%) were detected. Aspartate was elevated in hippocampus, both preictally (+49%) and after seizure onset (+21%) while at the same phases in globus pallidus a consistent reduction (-30%) was observed. The glutamine content increased preictally in globus pallidus (+41%) and hypothalamus (+36%), and in all brain areas during the ictal phase of seizure, the hippocampus exhibiting a dramatic increase (approximately 300%). The contents of serine and alanine were altered in most regions studied only after seizure onset, with the exception of the hippocampus, where a decrease (-41%) of serine was observed preictally.     

Generation of 5-lipoxygenase metabolites following pulmonary reperfusion in isolated rabbit lungs.

We characterized the release of arachidonic acid (AA) metabolites in lung effluent following lung ischemia-reperfusion since they may contribute to the pathophysiology of reperfusion lung injury. The left pulmonary artery of rabbits (N = 5) was occluded for 24 hrs with a surgically implanted vascular clip. At 24 hrs, the heart and lungs were removed en bloc and perfused with Ringers-albumin (0.5 gm%) at 60 ml/min while statically inflated with 95% O2-5% CO2. The lipid fraction of the lung effluent was concentrated using the Bligh-Dyer extraction and analyzed by gradient RP-HPLC. Samples obtained in the first minute of reperfusion showed significant increases in LTB4 (+180%), LTC4 (+3600%), 15-HETE (+370%), 5-HPETE (+270%), PGE2 (+140%), 6-keto-PGF1 alpha (+110%) and 12-HHT (+160%) compared to the effluent from the right control lung. The reperfusion-induced increases in LTB4, LTC4, LTD4 and 15-HETE were inhibited greater than or equal to 70% by pretreatment with the 5-LO inhibitors L663,536 or L651,392. The increases in lipid concentrations corresponded to significantly increased pulmonary arterial pressure from a baseline value of 9.5 +/- 0.3 to 29.3 +/- 2.9 (cmH2O) during the first min of reperfusion. The pulmonary arterial pressure remained elevated for at least 20 min of reperfusion. Reperfusion also resulted in PMN uptake (assessed by lung tissue myeloperoxidase content) in the reperfused lung versus control lung (25.0 +/- 2.4 vs. 10.5 +/- 2.5 units). The generation of lipoxygenase metabolites during the initial phase of reperfusion may contribute to post-reperfusion PMN uptake and pulmonary vasoconstriction.     

NADPH oxidase inhibition reduces tubular sodium transport and improves kidney oxygenation in diabetes

Sustained hyperglycemia is associated with increased oxidative stress resulting in decreased intrarenal oxygen tension (Po(2)) due to increased oxygen consumption (Qo(2)). Chronic blockade of the main superoxide radicals producing system, the nicotinamide adenine dinucleotide phosphate (NADPH) oxidase, normalizes Qo(2) by isolated proximal tubular cells (PTC) and reduces proteinuria in diabetes. The aim was to investigate the effects of acute NADPH oxidase inhibition on tubular Na(+) transport and kidney Po(2) in vivo. Glomerular filtration rate (GFR), renal blood flow (RBF), filtration fraction (FF), Na(+) excretion, fractional Li(+) excretion, and intrarenal Po(2) was measured in control and streptozotocin-diabetic rats during baseline and after acute NADPH oxidase inhibition using apocynin. The effects on tubular transporters were investigated using freshly isolated PTC. GFR was increased in diabetics compared with controls (2.2 ± 0.3 vs. 1.4 ± 0.1 ml·min(-1)·kidney(-1)). RBF was similar in both groups, resulting in increased FF in diabetics. Po(2) was reduced in cortex and medulla in diabetic kidneys compared with controls (34.4 ± 0.7 vs. 42.5 ± 1.2 mmHg and 15.7 ± 1.2 vs. 25.5 ± 2.3 mmHg, respectively). Na(+) excretion was increased in diabetics compared with controls (24.0 ± 4.7 vs. 9.0 ± 2.0 μm·min(-1)·kidney(-1)). In controls, all parameters were unaffected. However, apocynin increased Na(+) excretion (+112%) and decreased fractional lithium reabsorption (-10%) in diabetics, resulting in improved cortical (+14%) and medullary (+28%) Po(2). Qo(2) was higher in PTC isolated from diabetic rats compared with control. Apocynin, dimethylamiloride, and ouabain reduced Qo(2), but the effects of combining apocynin with either dimethylamiloride or ouabain were not additive. In conclusion, NADPH oxidase inhibition reduces tubular Na(+) transport and improves intrarenal Po(2) in diabetes.     

Changes in haematology during upstream migration to American shad

Heart mass of American shad Alosa sapidissima did not change during migration in the Connecticut River. Spleen mass decreased and there was an increase in available blood haemoglobin (+22%) and haematocrit (+9%). The decreases in spleen somatic index (-29%) and spleen haemoglobin content (-15%) were dependent upon distance travelled upriver and not seasonal migration timing or short-term exercise events such as passage up a fish ladder. There was no effect of migration timing on any of the blood parameters measured, suggesting that any physiological responses during migration were based on distance travelled rather than seasonally variable conditions such as temperature, although blood haemoglobin (+24%) and haematocrit (+21%) increased after passage up a fish ladder. These changes in haematological physiology occurring during upstream migration may increase swimming performance and migratory success in American shad.     

Endurance training increases FFA oxidation and reduces triacylglycerol utilization in contracting rat soleus

We examined the effects of 8 wk of intense endurance training on free fatty acid (FFA) transporters and metabolism in resting and contracting soleus muscle using pulse-chase procedures. Endurance training increased maximal citrate synthase activity in red muscles (+54 to +91%; P 相似文献   

Surgical and pharmacological reductions in sympathetic nerve activity increase the neuropeptide Y-immunoreactivity content of the rat iris but not the vas deferens

Decentralization of the superior cervical ganglion (S.C.G.) of the rat elevated the neuropeptide-Y immunoreactivity (NPY-ir) content of the ganglion on day 1 (+43%) but not on day 3 post-surgery. The content of NPY-ir in the iris was increased by decentralization (+40%) 3 days post-surgery, and treatment with clonidine (+43%), and pempidine (+82%). The levels of NPY-ir in the rat vas deferens were not affected by either surgical or pharmacological treatment. These results suggest NPY is released from sympathetic nerves in the iris but not vas deferens during normal sympathetic activity.