Potential difference responses due to K+, Na+ and Cl− changes in Bullfrog antrum with and without HCO3−

The effect of changing [K⁺], [Na⁺] and [Cl^?] in nutrient solution was studied in bullfrog antrum with and without HCO₃^? in nutrient. In 25 mM HCO₃^? (95% O₂/5% CO₂) and in zero HCO₃^? (100% O₂), nutrient pH was maintained at 7.3. Changing from 4 to 40 mM K⁺ or from 81 to 8.1 mM Cl^? gave a decrease 10 min later in transmucosal PD (nutrient became more negative) — a normal response. These responses were less in zero than in 25 mM HCO₃^?. A decrease from 102 to 8 mM Na⁺ decreased PD (anomalous response of electrogenic NaCl symport). This effect was attenuated or eliminated in zero HCO₃^?. In contrast, change from 4 to 40 mM K⁺ gave initial anomalous PD response and change from 102 to 8 mM Na⁺, initial normal PD response with either zero or 25 mM HCO₃^?. Both responses were associated with (Na⁺ + K⁺)-ATPase pump and were greater in zero than in 25 mM HCO₃^?. Initial PD increases in zero HCO₃^? are explained as due to increase in the resistance of passive conductance and/or NaCl symport pathways. Thus, removal of HCO₃^? modifies conductance pathways of nutrient membrane.     

The fat body of bullfrog (Lithobates catesbeianus) tadpoles during metamorphosis: changes in mass, histology, and melatonin content and effect of food deprivation

The fat body of Lithobates catesbeianus (formerly Rana catesbeiana) tadpoles was studied during metamorphosis and after food deprivation in order to detect changes in its weight, adipocyte size, histology, and melatonin content. Bullfrog tadpoles have large fat bodies throughout their long larval life. Fat bodies increase in absolute weight, and weight relative to body mass, during late stages of prometamorphosis, peaking just before climax, and then decreasing, especially during the latter stages of transformation into the froglet. The climax decrease is accompanied by a reduction in size of adipocytes and a change in histology of the fat body such that interstitial tissue becomes more prominent. Food deprivation for a month during early prometamorphosis significantly decreased fat body weight and adipocyte size but did not affect the rate of development. However, food restriction just before climax retarded development, suggesting that the increased nutrient storage in the fat body before climax is necessary for metamorphic progress. Melatonin, which might be involved in the regulation of seasonal changes in fat stores, stayed approximately at the same level during most of larval life, but increased sharply in the fat body during the late stages of climax. The findings show that the rate of development of these tadpoles is not affected by starvation during larval life as long as they can utilize fat body stores for nourishment. They also suggest that the build up of fat body stores just before climax is necessary for progress during the climax period when feeding stops.     

Heat Stress Induces Changes in Protein Synthesis and Fast Axonal Transport in Bullfrog Sensory Neurons

The effects of heat stress on protein synthesis and fast axonal transport were examined in an in vitro bullfrog primary afferent neuron preparation. The magnitude of effect was determined for individual [35S]methionine-labelled protein species separated via two-dimensional gel electrophoresis. Elevation of temperature of the preparation from 18 degrees C to 33 degrees C caused a transient inhibition of synthesis of non-heat-shock proteins, whereas the synthesis of a 74,000-dalton protein increased to 927% of controls after 4 h. Similar prolonged stress conditions had no effect on the relative abundance of 36 individual, newly synthesized proteins undergoing fast axonal transport. A dramatic exception was represented by a 55,000-dalton glycoprotein whose fast transport was increased to 291% of control. The increase in transport of this protein during a time when synthesis and transport of other non-heat-shock proteins were not enhanced suggests that it may play a unique role in the early cellular events that mediate survival or thermotolerance in the neuron.     

Immunocytochemical localization of ribonuclease in yolk granules of adult Rana cttesbeiana oocytes

To determine the localization of the pyrimidine-guanine sequence-specific ribonuclease in Rana catesbeiana (bullfrog) oocytes, the RNase was first isolated and used to prepare a specific rabbit antiserum. Only one protein of similar molecular size to the RNase was immunoprecipitated from ovary homogenate by the antiserum, but two bands were observed by Western blotting analysis. These two proteins were shown by further purification of antibody and Western blotting analysis to have similar antigenicity. Immunoprecipitation and Western blotting of tissue homogenates showed that the RNase was found predominantly in the ovary, but not in other tissues. The specific localization of the RNase was determined by immuno-electron microscopy of oocyte sections incubated with the specific antiserum; the yolk granules, but not other organelles, were found to contain the RNase. Most of the RNase was evenly distributed in the lateral amorphous area of the yolk granule but not in the central yolk crystal area which contains stored vitellogenin proteins. Our results indicate that the RNase is compartmentalized in the yolk granules of oocytes, which might prevent damage to cellular RNAs.     

性类固醇激素受体ER、AR和PR在牛蛙胃肠胰的定位

本文用免疫组织化学技术检测及光密度定量分析,研究4种性类固醇激素受体在牛蛙(Rana catesbeiana)胃肠胰内的定位及表达的强弱,探讨4种性类固醇激素在牛蛙胃肠胰中的功能。染色结果显示,4种性类固醇激素受体在牛蛙胃肠胰内都有分布,雌雄之间分布差异较小。雌激素受体α(ERα)主要分布在牛蛙胃腺、直肠固有层和胰腺中;雌激素受体β(ERβ)主要分布在食道上皮、直肠固有层和胰腺中;雄激素受体(AR)主要分布在食道上皮、直肠固有层和胰腺中;孕激素受体(PR)主要分布在空肠、食道上皮和胰腺中。光密度检测结果显示,雌激素受体α(ERα)在牛蛙胃和直肠中阳性反应最强,在胰腺中相对较弱。雌激素受体β(ERβ)在牛蛙直肠中阳性反应最强,胰腺和食道次之。雄激素受体(AR)在食道中阳性反应相对较强,其他部位都较弱。孕激素受体(PR)在空肠中的阳性反应较强,其他部位都较弱。雌激素受体α(ERα)在胃中以及雄激素受体(AR)在食道和直肠中的免疫阳性反应均是雌性牛蛙强于雄性牛蛙,雌激素受体β(ERβ)在胰腺中的免疫阳性反应是雄性牛蛙强于雌性牛蛙。4种性类固醇激素受体中,雌激素受体α(ERα)和雌激素受体β(ERβ)在牛蛙胃肠胰中的分布最多,雄激素受体(AR)、孕激素受体(PR)的分布相对较少。性类固醇激素受体主要分布在食道、胃、直肠和胰腺中,其中,分布最多的部位是胃和直肠。4种性类固醇激素受体在牛蛙胃肠胰内的分布表明,性类固醇激素对牛蛙消化功能特别是胃和直肠的功能具有多方面的调节作用。     

Developmental and diel profiles of plasma corticosteroids in the bullfrog,Rana catesbeiana

Corticosteroids synergize with the thyroid hormone (TH) at late metamorphic stages and might have a role in the hormonal regulation of amphibian metamorphosis. This role could be influenced by diel fluctuations, particularly if the peak of the plasma corticoids changed in relation to the TH peaks. Diel variation in plasma corticosteroids was studied in Rana catesbeiana prometamorphic and climax tadpoles on 18:6, 12:12 and 6:18 light:dark (LD) cycles. Cortisol (hydrocortisone; HC) and aldosterone (ALDO) exhibited different, but LD cycle-specific, circadian fluctuations at prometamorphosis, whereas corticosterone (CORT) was undetectable (less than 1.18 ng/ml). HC, ALDO and CORT rhythms became synchronous at early metamorphic climax on all LD cycles, although the cosinor-derived acrophases, which occurred around the time of the dark:light transition, shifted approximately 6 h earlier from 18L:6D to 6L:18D. On both 18L:6D and 12L:12D, the acrophase of HC changed little from prometamorphosis to climax, whereas that of ALDO underwent a major phase shift. On 6L:18D, both the ALDO and the HC acrophases shifted at climax. These LD cycle-specific phase shifts of the diel rhythms placed the acrophases of the corticoids in different phase relationships to that of the previously determined thyroxine (T(4)) acrophase at climax, and may partially explain the influence of the light regimen on metamorphic timing. The pronounced diel variations in the corticoid concentrations from the troughs to the peaks show that hormone levels are a function of the time of day and the environmental lighting regimen, which need to be taken into account in measuring the level of plasma hormones in amphibians. The 24-h means calculated from the data of all the sampling times showed that only plasma ALDO and CORT, but not HC, rose markedly at climax, although there were significant LD cycle-related differences in the mean levels of both HC and ALDO at prometamorphosis, and in HC at climax. Additional work sampling at mid-light showed that plasma CORT peaked at Stage XXIII, decreased at the end of climax, and remained low in the postmetamorphic froglet at 2.1 ng/ml. In the adult bullfrog, CORT was clearly the predominant corticosteroid at 34.3 ng/ml, whereas HC and ALDO levels were only approximately 1.3 ng/ml.