N2-fixation in Erwinia herbicola

Four from 18 strains of Erwinia herbicola tested had nitrogenase activity and grew with N₂ as sole source of nitrogen under strict anaerobic conditions with a doubling time of 20–24 h. Nitrogenase activity started only 96–120 h after transfer to a special medium maintained under anaerobic conditions. A ten fold increase in protein per culture found after the maximum nitrogenase activity of 80–130 nmol C₂H₄. mg protein^-1·min^-1 was accompanied by a fall in pH of the medium (20 mM phosphate buffer and in 125 mM Tris-buffer) from pH 7.2 to 5.4 or less, but only to 6.8 in 100 mM phosphate buffer. In all cases we found a sharp curtailing of nitrogenase activity 48 h after the maximum. The bacteria utilized only 35–50% of the nitrogen fixed for growth. Erwinia herbicola strains differed from two strains of Enterobacter agglomerans in being unable to fix nitrogen on agar surfaces exposed to air. Specific nitrogenase activity in Erwinia herbicola is compared with data reported for other Enterobacteriaceae and is found to be higher than that reported for Klebsiella pneumoniae, Enterobacter cloacae or Citrobacter freundii.     

Comparative effects of TiO2-immobilized photocatalytic supporters on the bactericidal efficiency of a novel photoreactor

A novel and highly effective UV-TiO₂ photocatalytic reactor was developed for killing microorganisms, including Escherichia coli. Among tested four types of TiO₂-immobilized photocatalytic supporters (glass bead, muscovite bead, alginate bead, and TiO₂ thin film coated quartz tube), the muscovite bead had a 99.9% percent bactericidal activity within 5 min along with permanent longevity. Adding air bubbles or H₂O₂ (<50 mg l^–1) to the sample solution significantly enhanced the killing activity in that 100% percent of bacterial cells were killed within 3 min.     

Quantitative determination of methanogenic bacteria in the feces of different mammals

In this research on fresh human, cattle, swine, and rabbit feces, methanogenic bacteria were found in all samples examined, at the following concentrations per gram dry weight: swine, 10⁸; human, 10⁷; cattle, 10⁶; and rabbit, 10⁴. Anaerobic heterotrophic bacteria were found in the following concentrations per gram dry weight: human, 10¹¹; swine, 10¹¹; cattle, 10¹¹; and rabbit, 10¹⁰. The total number of O₂-intolerant was higher than that of O₂-tolerant bacteria: about 10–100 times for methanogenic and 100–1000 times for anaerobic heterotrophic bacteria.     

Oxygen exposure increases resistance of Desulfovibrio vulgaris Hildenborough to killing by hydrogen peroxide

Inactivation of PerR by oxidative stress and a corresponding increase in expression of the perR regulon genes is part of the oxidative stress defense in a variety of anaerobic bacteria. Diluted anaerobic, nearly sulfide-free cultures of mutant and wild-type Desulfovibrio vulgaris (10⁵–10⁶ colony-forming units/ml) were treated with 0 to 2,500 μM H₂O₂ for only 5 min to prevent readjustment of gene expression. Survivors were then scored by plating. The wild type and perR mutant had 50% survival at 58 and 269 μM H₂O₂, respectively, indicating the latter to be 4.6-fold more resistant to killing by H₂O₂ under these conditions. Significantly increased resistance of the wild type (38-fold; 50% killing at 2188 μM H₂O₂) was observed if cells were pretreated with full air for 30 min, conditions that did not affect cell viability. The resistance of the perR mutant increased less (4.6-fold; 50% killing at 1230 μM H₂O₂), when similarly pretreated. Interestingly, no increased resistance of either was achieved by exposure with 10.6 μM H₂O₂ for 30 min, the highest concentration that could be used without killing the cells. Hence, in environments with low D. vulgaris biomass only the presence of external O₂ effectively activates the perR regulon. As a result, mutant strains lacking one of the perR regulon genes ahpC, dvu0772, rbr1 or rbr2 displayed decreased resistance to H₂O₂ stress only following pretreatment with air.     

Spray drying of the dehalogenating bacterium Rhodococcus sp.

The bacteria Rhodococcus sp. and Xanthobacter autotrophicus have the ability to dehalogenate a broad range of halogenated hydrocarbons. The applicability of spray drying to the preservation of the microorganisms and the intracellular enzyme halidohydrolase (E.C.3.8.1.1) was examined. K₂SO₄, MgSO₄, glutamate and sucrose were added as stabilizers and carriers. Spray drying was carried out at inlet air temperatures of 100–120 °C and outlet air temperatures of 65–72 °C. Best results were obtained by the addition of 5% K₂SO₄ and at 107 °C air inlet temperature. Dried preparations of Rhodococcus sp. exhibited a crystalline consistency and a 95% recovery of cellular activity. After storage at 4 °C for six months the enzyme preparation showed no loss in activity. Spray dried preparations of Xanthobacter autotrophicus showed only a 4% recovery of cellular activity.List of Symbols MSG Monosodiumglutamate - RC % Recovery of stabilizer and biomass - RCA % Recovery of cellular activity ([U/g biomass after the spraydrying]/[U/g biomass of untreated cells]) 100 - RCB % Recovery of biomass - SR % Survival rate - T ₁ °C Inlet air temperature - T ₂ °C Exit air temperature - W % Water content - Y.Akt % Yield in enzyme activity This work was supported by the Jubiläumsfond der Oesterreichischen Nationalbank, Projekt No. 4499.     

Respiration and oxygen transport functions of the blood from an intertidal fish,Helcogramma medium (Tripterygiidae)

Synopsis Aquatic and aerial oxygen uptake (̇O₂), ventilation frequency, and oxygen transport properties of the blood were determined for the intertidal fish Helcogramma medium. Ventilation frequency increased in response to decreased environmental PO₂ and aquatic ̇O₂ was maintained down to a critical PO₂ of 30–40 mm Hg. Below PO₂ 30 mm Hg fish intermittently gulped air and finally emerged into air at PO₂ 18 mm Hg. After 1 h exposure to air ̇O₂ decreased to 60% of the aquatic rate and this was accompanied by an increase in blood lactate. Aerobic expansibility was reduced in air (×1.2) compared to water (× 5.5). The Hb concentration was 0.47 ± 0.13 mmol 1^–1 and hematocrit 11.55 ± 3.61% indicating a moderate O₂-carrying capacity. Oxygen affinity was not especially high (P₅₀ = 19 mm Hg at pH 7.7 and 15°C) and ATP was the predominant acid-soluble phosphate regulating P₅₀. The equilibrium curve was essentially hyperbolic (Hill's n = 1.2) with a marked Bohr effect = –1.06) and Root effect (saturation depressed by 50% at pH7.1). The pattern of respiration and the respiratory properties of the blood together with observations of the behaviour of the fish during aerial exposure indicated that Helcogramma is adapted to living in a well-aerated environment yet can adequately tolerate short term exposure to low aquatic PO₂ or air.     

Maximal oxygen uptake, anaerobic threshold and running economy in women and men with similar performances level in marathons

Sex differences in running economy (gross oxygen cost of running, C_R), maximal oxygen uptake (VO_2max), anaerobic threshold (Th_an), percentage utilization of aerobic power (% VO_2max), and Th_an during running were investigated. There were six men and six women aged 20–30 years with a performance time of 2 h 40 min over the marathon distance. The VO_2max, Th_an, and CR were measured during controlled running on a treadmill at 1° and 3° gradient. From each subject's recorded time of running in the marathon, the average speed (v _M) was calculated and maintained during the treadmill running for 11 min. The VO_{2 max} was inversely related to body mass (m _b), there were no sex differences, and the mean values of the reduced exponent were 0.65 for women and 0.81 for men. These results indicate that for running the unit ml·kg^–0.75·min^–1 is convenient when comparing individuals with different m _b. The VO_2max was about 10% (23 ml·kg^–0.75·min^–1) higher in the men than in the women. The women had on the average 10–12 ml·kg^–0.75·min^–1 lower VO₂ than the men when running at comparable velocities. Disregarding sex, the mean value of C_R was 0.211 (SEM 0.005) ml·kg^–1·m^–1 (resting included), and was independent of treadmill speed. No sex differences in Th_an expressed as % VO_2max or percentage maximal heart rate were found, but Than expressed as VO₂ in ml·kg^–0.75·min^–1 was significantly higher in the men compared to the women. The percentage utilization of f _emax and concentration of blood lactate at v _M was higher for the female runners. The women ran 2 days more each week than the men over the first 4 months during the half year preceding the marathon race. It was concluded that the higher VO_2max and Th_an in the men was compensated for by more running, superior C_R, and a higher exercise intensity during the race in the performance-matched female marathon runners.     

Growth characteristics of non-heterocystous cyanobacterium Plectonema boryanum with N2 as nitrogen source

Strains of filamentous, non-heterocystous cyanobacteria from the Pasteur Culture Collection (PCC), able to synthesize nitrogenase under anaerobic test conditions, were tested for growth with N₂ as sole nitrogen source at low O₂ partial pressure (less than 0.05%). Plectonema boryanum (PCC 73110) exhibited exponential growth under these conditions. This capacity was restricted to light intensities not exceeding 500 lux. Growth rates were 0.014/h at 200 and 0.023 at 500 lux and similar to those of anaerobic and aerobic control cultures with nitrate as N-source. For N₂-fixing cultures incubated at 200 and 500 lux, acetylene reduction rates were 4–8 and 5–14 nmol C₂H₄ per mg protein per min, respectively. The ratio of phycocyanine to chlorophyll was higher (200 lux) or slightly reduced (500 lux) in N₂-fixing cultures as compared to control cultures with nitrate as N-source. On the basis of epifluorescence microscopy and microfluorimetry, no differences in pigment contents were found between individual cells or filaments of N₂-fixing cultures. Also no noteworthy differences were observed between the pycobiliprotein composition of individual cells in N₂ fixing cultures as compared to nitrate-grown controls. Thus the observed exponential growth of P. boryanum at low light intensities implies simultaneous nitrogen fixation and oxygenic photosynthesis. Additional continuous culture experiments showed that N₂-fixing exponential growth was dependent on O₂ partial pressures lower than 0.2–0.4%.The other strains tested (PCC 6412, 6602, 7403, 7104) did not grow under such conditions.Abbreviations Chl chlorophyll - PBP phycobiliproteins - PC phycocyanin - PCC Pasteur Culture Collection - OD optical density     

Respiratory responses and tolerance to hypoxia in two marine teleosts,Epinephelus akaara (Temminck & Schlegel) and Mylio macrocephalus (Basilewsky)

The respiratory responses and tolerance of hypoxia were studied in two marine teleosts, the red grouper (Epinephelus akaara, a sluggish species) and the black sea bream (Mylio macrocephalus, an active species). Neither species showed abnormal behaviour or mortality when exposed to 2 mg O₂ l^–1 for 7 h. The black sea bream was, however, comparatively more tolerant when exposed to 1 mg O₂ l^–1, but tolerance of both species became similar under extremely hypoxic conditions (i.e. 0.5 mg O₂ l^–1). In contrast to most other teleosts, both species showed a reduction in opercular beating rate during hypoxia, and oxygen conformity was found in the range of 0.5 to 7.0 mg O₂l ^–1. O₂ dissociation curves were constructed, and the P₅₀ value of the black sea breams (27 ± 5.6 mm Hg) was found to be much lower than that of the red groupers (50 ± 2.5 mm Hg). For both species, the general levels of venous PO₂ showed a direct relationship to ambient PO₂, and were markedly reduced after 1 h exposure to various levels of hypoxia. Compared with the red groupers, the black sea breams appeared to be more able to maintain its venous PO₂ levels during prolonged hypoxic exposure.     

Influence of carbon dioxide gas on German cockroach (Dictyoptera: Blattellidae) knockdown, recovery, movement and feeding

Abstract. Carbon dioxide anaesthesia differentially affects the knockdown and recovery of cockroaches, depending on the strain and the length of time that the colony has been subjected to a CO₂ regime. Adult males from two laboratory and two field-collected strains of German cockroaches, Blattella germanica, are knocked down within 7–45 s after exposure to CO₂. After 5 min of CO₂ exposure, presumptive recovery (i.e. the time for the cockroach to right itself after knockdown) for laboratory strains occurs significantly sooner than for field-collected strains. Control cockroaches, exposed to compressed air rather than CO₂, exit harbourage cups rapidly (≤3.20 min). However, although allowed a recovery period of 5 min, significant movement impairment occurs for all cockroach strains anaesthetized with CO₂. Carbon dioxide exposure significantly reduces consumption of 2.15% hydramethylnon bait and delays mortality even when 24 h is allowed for recovery before bait placement. Cockroaches allowed to recover for 48 h after 5 min of CO₂ exposure consume significantly more bait and die significantly faster than CO₂ exposed groups allowed 24 h of recovery, and mortality is not significantly different from nonanaesthetized bait-fed controls.     

Increased toxicity of low oxygen atmospheres supplemented with carbon dioxide on Tribolium castaneum adults

T. castaneum adults were exposed to atmospheres containing O₂ concentrations of 2%–5% supplemented with 5%–35% CO₂ at 26° and 30° for 24–120 hr at 57% relative humidity. Mortality of insects at the given O₂ concentrations was higher when the level of the added CO₂ was increased, the temperature was higher and the exposure time was extended. A significant interaction was found between the levels of O₂ and CO₂ tested, indicating the clear synergistic effect of these two gases on the mortality of test insects.

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résumé Des groupes d'adultes de 7 à 10 jours de T. castaneum ont été exposés à des atmosphères à teneurs en O₂ de 2, 3, 4 et 5% avec enrichissement en CO₂ variant entre 5% et 35%. Les expériences, effectuées aux températures 26° et 30° et 57% d'humidité relative, ont duré 120 heures.Aucune mortalité totale n'a été observée chez les insectes exposés aux faibles concentrations d'O₂ sans addition de CO₂, tandis qu'à 2% de O₂ une addition de 10% de CO₂ provoque à 26° une mortalité totale; le même résultat est obtenu à 30° en ajoutant seulement du CO₂ à 5%. Quand la teneur en O₂ est de 5%, il faut 35% de CO₂ pour obtenir une mortalité totale aux deux températures.Pour une concentration en O₂ donnée, la mortalité augmente avec la concentration en CO₂, la température et la durée d'exposition. Il y a des actions réciproques réelles entre les concentrations en O₂ et CO₂, ce qui montre un effet typiquement synergique des deux gaz sur la mortalité des T. castaneum testés.

     

Energy metabolism of Chironomus anthracinus (Diptera: Chironomidae) from the profundal zone of Lake Esrom,Denmark, as a function of body size,temperature and oxygen concentration

The profundal zone of Lake Esrom, Denmark has a dense population of Chironomus anthracinus, which survives 2–4 months of oxygen depletion each summer during stratification. The metabolism of 3rd and 4th instar larvae was examined in regard to variation in biomass and temperature. Respiration at air saturation was described by a curvilinear multiple regression relating oxygen consumption to individual AFDW and temperature. At 10 °C and varying oxygen regimes the O₂ consumption and CO₂ production of 4th instar larvae were almost unaltered from saturation to about 3 mg O₂ l^–1, but decreased steeply below this level. The respiratory quotient increased from 0.82 at saturation to about 3.4 at oxygen concentrations near 0.5 mg O₂ l^–1. This implied a shift from aerobic to partially anaerobic metabolism. At 0.5 mg O₂ l^–1 the total energy production equalled 20% of the rate at saturation of which more than one third was accounted for by anaerobic degradation of glycogen. This corresponded to a daily loss of 12 µg mg AFDW^–1 or approximately 5% of the body reserves. At unchanged metabolic rate the glycogen store would last three weeks, but long term oxygen deficiency causes a further suppression of the energy metabolism in C. anthracinus.     

Development of dependence on aerial respiration in Polypterus senegalus (Cuvier)

The respiratory behaviour and partitioning of O₂ uptake between air and water were investigated in Polypterus genegalus using continuous-flow and two-phase respirometers and lung gas replacement techniques P. senegalus rarely resorts to aerial respiration under normal conditions. Partitioning of O₂ consumption depends on the activity and age of fish and the availability of aquatic oxygen. Immature fish (12–22 g) cannot utilize aerial O₂ but older fish exhibit age-dependent reliance on aerial respiration in hypoxic and hypercarbic waters. Pulmonary respiration accounts for 50% of the total requirement at aquatic O₂ concentrations of about 3.5 mg · l^–1 (or CO₂ of about 5%) and fish rely exclusively on aerial respiration at O₂ concentrations of less than 2.5 mg · l^–1. Branchial respiration is initially stimulated by hypercarbia (CO₂: 0.5–0.8%) but increased hypercarbia (CO₂ – 1%) greatly depresses (by over 90%) brancial respiration and initiates (CO₂: 0.5%) and sustains pulmonary respiration.     

Oxygen deficits incurred during 45, 60, 75 and 90-s maximal cycling on an air-braked ergometer

The aims of this study were to determine the most appropriate duration for the measurement of the maximal accumulated O₂ deficit (MAOD), which is analogous to the anaerobic capacity, to ascertain the effects of mass, fat free mass (FFM), leg volume (V _leg) and lower body volume (V _1b) on anaerobic test performance, to examine the reproducibility for peak power output ( ) or maximal anaerobic power using an air-braked cycle ergometer and to produce approximations for the percentages of aerobic and anaerobic metabolism during exercise of short duration but high intensity. A group of 12 endurance trained cyclists [mean age 25.1 (SD 4.6) years; mean body mass 73.43 (SD 7.12) kg; mean maximal oxygen consumption 5.12 (SD 0.35) l·min^–1; mean body fat 12.5 (SD 4.1) %] accordingly performed four counterbalanced treatments of 45, 60, 75 and 90 s of maximal cycling on an air-braked ergometer. The mean O₂ deficit of 3.52 l for the 45-s treatment was significantly less (P < 0.01) than those for the 60 (3.75 l), 75 (3.80 l) and 90-s (3.75 l) treatments. These data therefore indicate that in predominantly aerobically trained subjects the O₂ deficit attains a plateau after 60 s of maximal cycling on an air-braked ergometer. Statistically significant interclass correlation coefficients (P<0.05) between the anthropometric variables (mass, FFM, V _leg and V_1b) and or maximal anaerobic power (0.624–0.748) and MAOD (ml) or anaerobic capacity (0.666–0.772) furthermore would suggest the relevance of taking into account muscle mass during anaerobic tests. Intraclass correlation coefficients (0.935–0.946; all P<0.001) would indicate a high degree of reliability for the measurement of . The relative importance of anaerobic work decreased from 60% for the 45-s test to 40% for the 90-s one. Hence our study showed that both aerobic and anaerobic metabolism contributed significantly during all-out tests of 45–90 s duration.     

Effect of hypoxia on prostacyclin production in cultured pulmonary artery endothelium

Exposure of cultured bovine pulmonary artery endothelial cells to varying levels of hypoxia (10% or 0% O₂) for 4 hours resulted in a significant dose-dependent inhibition in endothelial prostacyclin synthesis (51% and 98%, at the 10% and 0% O₂ levels respectively, p <0.05, compared to 21% O₂ exposure values). Release of ³H-arachidonic acid from cellular pools was not altered by hypoxia. Some of the cells were incubated with arachidonic acid (20 μM for 5 min) or PGH₂ (4 μM for 2 min) immediately after exposure. Endothelium exposed to 0% O₂, but not to 10% O₂, produced significantly less prostacyclin after addition of either arachidonic acid (25 ± 5% of 21% O₂ exposure values, n=6, p <0.01) or PGH₂ (31 ± 3% of 21% O₂ exposure values, n=6, p <0.05). These results suggest that hypoxia inhibits cyclooxygenase at the 10% O₂ level and both cyclooxygenase and prostacyclin synthetase enzymes at the 0% O₂ exposure levels. Exposure of aortic endothelial cells resulted in a 44% inhibition of prostacyclin at the 0% exposure level. No significant alteration in prostacyclin production was found in pulmonary vascular smooth muscle cells exposed to hypoxia. These data suggest that the increased prostacyclin production reported in lungs exposed to hypoxia is not due to a direct effect of hypoxia on the main prostacyclin producing cells of the pulmonary circulation.     

Ozone detoxification in the apoplasm and symplasm of spinach,broad bean and beech leaves at ambient and elevated concentrations of ozone in air

Spinach (Spinacia oleracea L.), broad bean (Vicia faba L.) and beech (Fagus sylvatica L.) plants were exposed to ozone at concentrations often measured in air during the summer months (120–300 g·m^–3) and antioxidants were determined in the leaf tissue and in the aqueous phase of the cell wall, the apoplasm. Concentrations of both reduced ascorbate (AA) and its oxidized form, dehydroascorbate (DHA), showed the tendency to increase transiently in the apoplasm of spinach leaves 6–24 h after starting fumigation with ozone. In beech leaves, apoplasmic AA and DHA increased 3–7 d after beginning of treatment. At the very high concentration of 1600 g O₃·m^–3, an increase of apoplasmic AA was already measured after 1 d in beech leaves. Apparently, spinach and beech leaves respond to oxidative stress by increasing AA transport into the apoplasm and by accelerating DHA export. In contrast to these observations, DHA accumulated during 3 d of fumigation with only 120 g O₃·m^–3 in the apoplasm of broad bean leaves, while AA contents did not increase. After termination of fumigation, the extracellular redox state of ascorbate normalized within 1 d. Glutathione could not be detected in the apoplasm of any of the three leaf species. Intracellular AA changed its redox state in response to exposure to elevated concentrations of ozone. After 4–6 weeks of fumigation with 200–300 g O₃·m^–3 an increase of intracellular DHA was measured in beech leaves. At the same time, chlorophyll contents decreased and characteristic symptoms of ozone damage could be observed. However, no significant change in the redox state of apoplasmic ascorbate could be detected in beech leaves. Evidently, detoxification of ozone by apoplasmic AA was insufficient to protect the leaf tissue. Fumigation with a high ozone concentration (1600 g·m^–3) caused an appreciable increase in the cellular contents of the oxidized forms of ascorbate and glutathione in beech leaves. Whereas in spinach leaves intracellular antioxidant contents and redox states were not altered during fumigation with 120–240 g O₃·m^–3, in broad bean leaves the intracellular DHA concentration increased and intracellular ascorbate became more oxidized after fumigation of the plants with 120 g O₃·m^–3. Apparently, broad bean leaves are more sensitive to ozone than beech and spinach leaves.Abbreviations AA ascorbate, reduced form - DHA ascorbate, oxidized form (dehydroascorbate) - FW fresh weight - GSH glutathione, reduced form - GSSG glutathione, oxidized form - IWF intercellular washing fluid - V_air intercellular air space volume of leaves - V_apo apoplasmic water volume of leaves This work was supported within the Sonderforschungsbereich 251 of the University of Würzburg.     

Respiratory gas exchange in the airbreathing fish,Synbranchus marmoratus

Synopsis The partitioning of O₂ uptake between aquatic and aerial gas exchange and its dependence on ambient water PO₂ was studied in the facultative air breathing teleost Synbranchus marmoratus, after acclimation to well aerated water and after acute and chronic exposure to hypoxic water. O₂ uptake was also studied following acute air exposure and after prolonged entrapment in soil. Breathing rates during water and air breathing in response to reduced water PO₂ and tidal volume during air breathing were also studied. S. marmoratus satisfies its O₂ requirement by water breathing alone until water PO₂ falls below 30–50 mm Hg (switching PO₂) depending on the acclimation history. Below the switching PO₂, air breathing is adopted while active water breathing stops. The O₂ uptake varied little for all groups when the principal mode of gas exchange changed at the switching PO₂. The highest O₂ uptake prevailed when the fish employed the mode of gas exchange in operation during the acclimation period (i.e. water breathing for normoxia-acclimated, air breathing for hypoxic-acclimated).Acclimation to chronic hypoxia gave a much higher switching PO₂ 55 mm Hg) than for the other groups (about 30 mm Hg). S. marmoratus maintained its O₂ uptake when acutely exposed to air. When entrapped in soil in an aestivating state, the O₂ uptake was reduced to 25% of that in water or during acute air exposure. The overall gas exchange ratio for air breathing was very low (R_E 0.1).Branchial water pumping increased with lowering of water PO₂. The rate of air breathing was independent of water PO₂.The findings are discussed in the light of the ecophysiological conditions confronting S. marmoratus.     

LHRH-receptor-regulated Ca2+-ATPase activity in murine pituitary gland

Addition of luteinizing hormone releasing hormone (LHRH) in vitro (10^–5–5×10^–9 M) to murine pituitary membranes resulted in a dose-related decrease in Ca²⁺-ATPase activity within 15 min. Inhibitory effects of LHRH (10^–7 M) occurred after 90 sec, and appeared maximal by 120 sec. Eadie-Hofstee analysis at 10^–7 M LHRH, at varying [Ca²⁺]_free, resulted in aK _m=0.89±0.06 M and aV _max=18.8±0.71 nmol/mg per 2 min, compared to aK _m=0.69±0.06 M and aV _max=32.8±1.21 nmol/mg per 2 min for controls. Pre-incubation for 5 min with LHRH antagonist (10^–8 M) significantly attenuated (50%) the inhibitory effects of 10^–7 M LHRH on pituitary Ca²⁺ ATPase activity with aK _m=0.97±0.24 M and aV _max=28.1±2.8 nmol/mg per 2 min. The addition of LHRH (10^–7 M) to pituitary homogenates significantly increased luteinizing hormone (LH) release already at 10 and up to 40 sec compared to basal LH release. Systemic administration of 50 ng LHRH (i.p.), significantly (P<0.05) reduced pituitary Ca²⁺-ATPase after 30, 60 and 90 min, with a return to control levels by 120 min. Pituitary LH content was reduced slightly at 15 min, but was increased significantly at 90 and 120 min post-treatment. Plasma LH levels were elevated by 5 min, reached a peak by 15 min and returned to control within 60 min. The present findings indicate that LHRH receptor activation may influence cytosolic Ca²⁺ transport through effects on membrane Ca²⁺-ATPase activity. These actions may regulate LHRH-induced synthesis, storage and release of LH from pituitary gonadotropes.     

Effect of hypoxic breathing on cutaneous temperature recovery in man

Effect of hypoxia (12% O₂) on skin temperature recovery was studied on healthy young men. Forty male volunteers free of any respiratory disorder were randomly selected to participate in the study. Skin temperature, peripheral blood flow, heart rate and end expiratoryPO₂ andPCO₂ were measured. During hyoxic ventilation the peripheral blood flow was reduced and a corresponding drop in skin temperature occurred. This was partly due to hyperventilation associated with hypoxic ventilation. The recovery of skin temperature after cooling the hand for 2 min in cold water (10–12° C) took 5.5±0.1 min during normal air breathing; during hypoxic ventilation even after 9.1±0.3 min when the skin temperature recovery curve plateaued, the skin temperature remained about 2° C below control. The results of the present investigation indicate that hypoxia interferes with the normal functioning of the thermoregulatory mechanism in man. Hyperventilation associated with hypoxic ventilation is also partly responsible for incomplete recovery of skin temperature.