O2 cost of breathing: ventilatory vs. pressure loads.

We compared the O2 cost of breathing (VO2resp) at high levels of ventilation (HV) with that against high inspiratory pressure loads (HP) using an external elastance when end-expiratory volume, work rate (W), and pressure-time product (P) were matched at two levels of ventilation and elastic loading. Each of five normal subjects performed three pairs of loaded runs (one HV and one HP) bracketed by two resting runs. Mean O2 consumption from the pairs of resting runs was subtracted from that of each of the loaded runs to give VO2resp during loaded breathing. Matching for W and P was within 15% in all 15 pairs of runs. During HV runs, ventilation was 398 +/- 24% of corresponding values during HP runs (P < 0.01). Although there was no difference in W (P > 0.05), the VO2resp during HV runs was 237 +/- 33% of that during HP (P < 0.01) and efficiency of HV was 51 +/- 5% of that during HP (P < 0.01). When W was normalized for the decrease in maximum inspiratory pressure with increased mean lung volume, efficiency during HV and HP runs did not differ (P > 0.05). In the second series of experiments, when both HV and HP runs were matched for W but P was allowed to vary, efficiency increased by 1.42 +/- 0.42% (P < 0.05) for each percent decrease in P during HV runs but was unchanged (P > 0.05) during HP runs despite a 193 +/- 10% increase in P.(ABSTRACT TRUNCATED AT 250 WORDS)     

Molecular evolution of mammalian aquaporin-2: further evidence that elephant shrew and aardvark join the paenungulate clade

A 328-bp sequence from exon 1 of the gene for aquaporin-2 (AQP2) was compared in 12 mammalian species, representing as many eutherian orders. This sequence encodes the N-terminal half of this kidney- specific water channel protein. Most amino acid replacements, as well as an insertion, have occurred in extracellular loops connecting the transmembrane helices, in agreement with a lower functional importance of these loops. Phylogenetic analyses were performed with parsimony, distance, and maximum-likelihood methods. The AQP2 data set, alone as well as in combination with previously published alpha A-crystallin protein sequences, strongly supports a clade consisting of elephant, hyrax, aardvark, and elephant shrew, reaching bootstrap values of 99%. This finding fully agrees with the only other presently available sequence data sets that include these taxa, those of von Willebrand factor and interphotoreceptor retinoid-binding protein, and suggests that this extended paenungulate clade is one of the most conspicuous superordinal groupings in eutherian phylogeny. Some support was obtained for an artiodactyl/perissodactyl clade, while the grouping of pholidotes with edentates was contradicted.      

Diet of bluegill Lepomis macrochirus in a South African reservoir during winter and summer

Alien fishes are considered a major threat to aquatic biodiversity in South Africa, yet relatively little regional information on their biology and ecology is available for many of these species. Seasonal changes in the diet of the bluegill Lepomis macrochirus in Howieson’s Poort Dam, Grahamstown, were assessed during summer and winter in 2014–2015, using stomach content analysis. In winter, juvenile and adult fish diets were dominated by crustacean zooplankton and insects, respectively. In summer, juvenile fish fed on crustaceans and insects, whereas adults consumed mostly fish eggs, indicating a potential impact by these invasive fish on native fish through oophagy.     

Phosphorylation of cardiac and skeletal muscle calsequestrin isoforms by casein kinase II. Demonstration of a cluster of unique rapidly phosphorylated sites in cardiac calsequestrin

Calsequestrin is an acidic Ca2(+)-binding protein of sarcoplasmic reticulum existing as different gene products in cardiac muscle and skeletal muscle. A unique feature of cardiac calsequestrin is a 31-amino acid-long COOH-terminal tail (Scott, B. T., Simmerman, H. K. B., Collins, J. H., Nadal-Ginard, B., and Jones, L. R. (1988) J. Biol. Chem. 263, 8958-8964), which is highly acidic and contains several consensus phosphorylation sites for casein kinase II. In the work described here, we tested whether this cardiac-specific sequence is a substrate for casein kinase II. Both cardiac and skeletal muscle calsequestrins were phosphorylated by casein kinase II, but cardiac calsequestrin was phosphorylated to a higher stoichiometry and at least 50 times more rapidly. The site of rapid phosphorylation of cardiac calsequestrin was localized to the distinct COOH terminus, where a cluster of three closely spaced serine residues are found (S378DEESN-DDSDDDDE-COOH). The slower phosphorylation of skeletal muscle calsequestrin occurred at its truncated COOH terminus, at threonine residue 363 (I351NTEDDDDDE-COOH). The similar sequence in cardiac calsequestrin (I351NTEDDDNEE) was not phosphorylated. Cardiac calsequestrin, as isolated, already contained 1.2 mol of Pi/mol of protein, whereas skeletal muscle calsequestrin contained only trace levels of Pi. The endogenous Pi of cardiac calsequestrin was also localized to the distinct COOH terminus. Our results indicate that the cardiac isoform of calsequestrin is the preferred substrate for casein kinase II both in vivo and in vitro.     

Na-dependent changes in intracellular Ca in spontaneously hypertensive rat hearts.

To determine whether Na/Ca exchange is altered in primary hypertension, Na-dependent changes in intracellular Ca, ([Ca]i), were measured in isolated perfused hearts from Wistar-Kyoto (WKY) and spontaneously hypertensive (SHR) rats. Intracellular Na, (Nai, mEq/kg dry wt), and [Ca]i were measured by NMR spectroscopy. Control [Ca]i was less in WKY than SHR (176 +/- 18 vs 253 +/- 21 nmol/l; mean +/- S.E., P < 0.05), whereas Nai was not significantly different. One explanation for this is that net Na/Ca exchange flux is decreased in SHR. If this hypothesis is correct, the rate of Ca uptake in SHR should be less than WKY when Na/Ca exchange is reversed by decreasing the transmembrane Na gradient. The Na gradient was reduced by decreasing extracellular Na, ([Na]o) and/or by increasing [Na]i. To increase [Na]i, Na uptake was stimulated by acidification while Na extrusion by Na/K ATPase was inhibited by K-free perfusion. Seventeen minutes after acidification, Nai had increased but was not significantly different in SHR and WKY (18.0 +/- 2.3 to 57.4 +/- 7.6 vs 20.3 +/- 0.6 to 66.5 +/- 4.8 mEq/kg dry wt, respectively). Yet [Ca]i was greater in WKY than SHR (1768 +/- 142 vs 1201 +/- 90 nmol/l; P < 0.05). [Ca]i was also measured after decreasing [Na]o from 141 to 30 mmol/l. Fifteen minutes after reducing [Na]o, [Ca]i was greater in WKY than SHR (833 +/- 119 vs 425 +/- 94 nmol/l; P < 0.05). Thus for both protocols, decreasing the transmembrane Na gradient led to increased [Ca]i in both SHR and WKY, but less increase in SHR. The results are consistent with the hypothesis that Na/Ca exchange activity is less in SHR than WKY myocardium.     

"Silent" sites in Drosophila genes are not neutral: evidence of selection among synonymous codons

The patterns of synonymous codon usage in 91 Drosophila melanogaster genes have been examined. Codon usage varies strikingly among genes. This variation is associated with differences in G+C content at silent sites, but (unlike the situation in mammalian genes) these differences are not correlated with variation in intron base composition and so are not easily explicable in terms of mutational biases. Instead, those genes with high G+C content at silent sites, resulting from a strong "preference" for a particular subset of the codons that are mostly C- ending, appear to be the more highly expressed genes. This suggests that G+C content is reduced in sequences where selective constraints are weaker, as indeed seen in a pseudogene. These and other data discussed are consistent with the effects of translational selection among synonymous codons, as seen in unicellular organisms. The existence of selective constraints on silent substitutions, which may vary in strength among genes, has implications for the use of silent molecular clocks.      

Chest wall and trunk muscle activity during inspiratory loading.

We measured the electromyographic (EMG) activity in four chest wall and trunk (CWT) muscles, the erector spinae, latissimus dorsi, pectoralis major, and trapezius, together with the parasternal, in four normal subjects during graded inspiratory efforts against an occlusion in both upright and seated postures. We also measured CWT EMGs in six seated subjects during inspiratory resistive loading at high and low tidal volumes [1,280 +/- 80 (SE) and 920 +/- 60 ml, respectively]. With one exception, CWT EMG increased as a function of inspiratory pressure generated (Pmus) at all lung volumes in both postures, with no systematic difference in recruitment between CWT and parasternal muscles as a function of Pmus. At any given lung volume there was no consistent difference in CWT EMG at a given Pmus between the two postures (P > 0.09). However, at a given Pmus during both graded inspiratory efforts and inspiratory resistive loading, EMGs of all muscles increased with lung volume, with greater volume dependence in the upright posture (P < 0.02). The results suggest that during inspiratory efforts, CWT muscles contribute to the generation of inspiratory pressure. The CWT muscles may act as fixators opposing deflationary forces transmitted to the vertebral column by rib cage articulations, a function that may be less effective at high lung volumes if the direction of the muscular insertions is altered disadvantageously.     

Effect of topical upper airway anesthesia on apnea duration through the night in obstructive sleep apnea

Cala, S. J., P. Sliwinski, M. G. Cosio, and R. J. Kimoff.Effect of topical upper airway anesthesia on apnea duration through the night in obstructive sleep apnea. J. Appl.Physiol. 81(6): 2618-2626, 1996.It haspreviously been reported that the duration of obstructive apneasincreases from the beginning to the end of the night (M. Charbonneau,J. M. Marin, A. Olha, R. J. Kimoff, R. D. Levy, and M. Cosio.Chest 106: 1695-1701, 1994). The purpose of this study wasto test the hypothesis that stimulation of upper airway (UA) sensoryreceptors during obstructed inspiratory efforts contributes to arousaland apnea termination and that a progressive attenuation of thismechanism through the night contributes to apnea lengthening. Westudied seven patients (six men, one woman) with severe obstructivesleep apnea (apnea-hypopnea index = 93 ± 26 events/h) during twoconsecutive nights of polysomnographic monitoring. On one night (randomorder), we performed topical UA anesthesia with 0.2% tetracaine and onthe control night, sham anesthesia. We measured apnea duration,esophageal pressure (Pes) during apneas, and apneicO₂ desaturation. Consistent withprevious findings, apnea duration, number of efforts per apnea, andpeak Pes at end apnea increased from the beginning to the end of the control nights. UA anesthesia produced a significant increase in apneaduration at the beginning of the night but no change in apnea length atthe end of the night. Peak Pes and the rate of increase in Pes duringthe anesthesia nights were greater than during control nights, but therate of increase in Pes was similar for the beginning and end of thecontrol and anesthesia nights. These findings suggest that UA sensoryreceptors play a role in mediating apnea termination at the beginningof the night but that the contribution of these receptors diminishes asthe night progresses such that greater inspiratory efforts arerequired to trigger arousal, leading to apnea prolongation.

     

Effects of the plant alkaloid sanguinarine on cation transport by human red blood cells and lipid bilayer membranes

Summary The plant alkaloid, sanguinarine, inhibits the ouabain-sensitive K–Na pump and increases the downhill, ouabain-insensitive movements of K and Na in human red cells. These two effects have different temporal and concentration dependencies and are mediated by two different chemical forms of sanguinarine. The oxidized, charged form (5×10^–5 m) promptly inhibits the pump but does not affect leakage of K and Na. The reduced, uncharged form of sanguinarine causes lysis of red cells but does not inhibited the pump. Sanguinarine also increases the conductance of bilayers formed from sheep red cell lipids. The effect is produced by the uncharged but not by the charged form of sanguinarine. Bilayer conductance increases as the fourth power of sanguinarine concentration when the compound is present on both sides of the membrane and as the second power of concentration when present on only one side. Conductance also increasee-fold for each 34 mV increase in the potential difference imposed across the membrane. The results suggest that the uncharged forms of sanguinarine produce voltage-dependent channels in bilayers.     

Stimulation of Cultured Melanocytes in Medium Containing a Serum Substitute: Ultroser-G

Melanocyte cultures were established and maintained routinely in Ham's F-10 medium containing 12-O-tetradecanoyl-phorbol-13-acetate (TPA), isobutylmethylxanthine (IBMX), cholera toxin (CT) and fetal calf serum (FCS). Three serum substitutes (Ultroser-G, Nutridoma-Hu and Nutricyte-H) were tested in order to obtain a medium without FCS having a more constant composition. Melanocyte proliferation was examined in long-term culture experiments by in situ cell counts at different periods of time. Only with Ultroser-G (1-2%) was the proliferation of melanocytes maintained without both FCS and CT, whereas the addition of the other two serum substitutes resulted in stabilization of melanocyte densities in the cultures up to 28 days. In the medium containing 1% Ultroser-G and IBMX without TPA minimal or no increases in melanocyte density were found. Addition of basic fibroblast growth factor (bFGF, 1 ng/ml) to the medium without TPA resulted in a partial restimulation of growth in different experiments. In this system with 1% Ultroser-G and 1 ng/ml bFGF, IBMX could also be replaced by other factors (dbcAMP LTC4 and a purified form of α-melanocyte stimulating hormone). The culture medium with 1% Ultroser-G containing TPA and IBMX is now used for routine melanocyte culture. In this medium TPN/IBMX can easily be replaced by bFGF/dbcAMP with optimal growth stimulation. The combination bFGF/α-MSH and other more physiological stimulators offers an alternative to study responses of melanocytes in culture with respect to proliferation, metabolism, and phenotype.