Epithelial modulation of trachealis muscle tension is calcium and temperature dependent

The tracheobronchial epithelium produces inhibitory substance(s) that alter the tracheal smooth muscle tension. This study examined the effect of changes in extracellular Ca2+ and temperature in vitro on the tension response of rabbit trachealis muscle to mechanical removal of the epithelium. Tension during acetylcholine- and KCl-induced contractions was examined at 0, 0.75, 1.5, 2.5, and 5 mM bath Ca2+ concentrations and at 37, 30, 23, and 41 degrees C bath temperature. At most extracellular Ca2+ concentrations (i.e., 0.75, 1.5, 2.5, and 5 mM), epithelial removal shifted the acetylcholine concentration response approximately one-half log to the left (P less than 0.001 for each condition) but had no effect on the responses to KCl (P = NS). Reductions in bath Ca2+ to 0 mM eliminated the epithelial inhibitory effect on the acetylcholine response. In contrast to the effects of reductions in Ca2+, cooling the airway to 30 and 23 degrees C progressively diminished the magnitude of the epithelial inhibitory effect. Our results indicate that the influence of the tracheal epithelium on tracheal smooth muscle responses to constrictor agonists is substance specific and can be diminished by reductions in tracheal temperature and extracellular Ca2+ concentration.     

Effect of temperature stress on circulating biogenic amines in bovine

1. A sensitive, simple and selective Chromatographic method using high performance liquid chromatography was developed to measure circulating levels of histamine (HI), norepinephrine (NE), dopamine (DA) and serotonin (5-HT) as indicators of response to thermal stress in two breeds of cattle.2. Duplicate exposures for 8 hr to 13°C resulted in significantly elevated plasma NE and DA in longhorns but not in Herefords and suggest a relatively greater sensitivity to the cold (13°C) in the longhorn.3. Environmental temperatures of 32 and 42°C significantly increased rectal temperatures of both breeds with much higher rectal temperatures in Herefords.4. The 32 and 42° C effects on circulating NE and DA of Herefords were highly significant but not in the longhorn. However, heat stress significantly elevated HI and 5-HT in the longhorn which may account for their relatively greater heat tolerance based on their lower rectal temperatures.     

Peripheral generation and modulation of crustacean motor axon activity at high temperatures

Summary We have examined the effects of temperature changes on the stretcher muscle and its motor supply in a crab (Pachygrapsus crassipes). An increase in temperature caused a decrease in the amplitude of evoked excitatory junctional potentials (ejp's). Above a critical threshold a single action potential in the excitor (E) or specific inhibitor (SI) axon provoked multiple spikes in the appropriate axon and concomitant ejp's or inhibitory junctional potentials (ijp's) in the stretcher muscle fibers. The critical temperature for generation of peripheral spikes was dependent upon the crab's thermal history.In preparations in which a shock to the E axon evoked repetitive firing, stimulation of the SI axon at about the same time as the E axon abolished or curtailed the peripherally generated E axon responses. No reciprocal modulation of SI activity by the E axon was observed. GABA abolished the peripheral generation of E spikes and picrotoxin prevented SI modulation of E activity. We suggest that the site of SI modulation is at the axo-axonal synapses, possibly at the fine E axon branches and the bottlenecks along the E axon where inhibitory synapses have been observed.Abbreviations CI common inhibitor (axon) - E excitor (axon) - ejp excitatory junctional potential - ijp inhibitory junctional potential - SI specific inhibitor axon This work was supported by grants awarded to Dr. Atwood from the National Research Council of Canada and the Muscular Dystrophy Association of Canada.     

Diet-induced modulation of mitochondrial activity in rat muscle

Growing evidence supports the theory that mitochondrial dysfunction is an underlying cause of intramyocellular lipid (IMCL) accumulation and insulin resistance. Here, we hypothesized that high dietary fat (HF) intake could trigger changes in mitochondrial activity such that fatty acid oxidation is impaired in muscle and contributes to an elevation in intramyocellular lipid (IMCL) levels. Muscle mitochondrial activity was determined in vivo through measurement of the F(1)F(0) ATP synthase flux, the terminal step in the oxidative phosphorylation process. An initial study comparing rats on normal chow diet with rats on an HF diet revealed strong correlations between muscle ATP synthesis rates, IMCL levels and whole body glucose tolerance. Results obtained from two latter studies showed multiphasic responses to dietary intervention. Initially, the ATP synthesis rates decreased as much as 50% within 24 h of raising the fat content in the diet to 60% of the caloric intake. These rates eventually returned to normal values after 2-3 wk on the HF regimen, seemingly to prevent further IMCL accumulation. Only beyond 1 mo on the HF diet did results consistently show ATP synthesis rates to diminish by 30-50% accompanied by steadily augmenting IMCL levels. Interestingly, switching back to a chow diet after 3 wk of HF feeding reversed the initial diet-induced changes. Although the muscle mitochondrial system may initially offer enough compliance to counteract lipid surplus, these in vivo data suggest a vicious long-term cycle among mitochondrial dysfunction, IMCL accumulation, and glucose intolerance in the rat.     

Long term expression of bicistronic vector driven by the FGF-1 IRES in mouse muscle

Background

Strawberry (Fragaria × ananassa) is an economically important soft fruit crop with polyploid genome which complicates the breeding of new cultivars. For certain traits, genetic engineering offers a potential alternative to traditional breeding. However, many strawberry varieties are quite recalcitrant for Agrobacterium-mediated transformation, and a method allowing easy handling of large amounts of starting material is needed. Also the genotyping of putative transformants is challenging since the isolation of DNA for Southern analysis is difficult due to the high amount of phenolic compounds and polysaccharides that complicate efficient extraction of digestable DNA. There is thus a need to apply a screening method that is sensitive and unambiguous in identifying the different transformation events.

Results

Hygromycin-resistant strawberries were developed in temporary immersion bioreactors by Agrobacterium-mediated gene transfer. Putative transformants were screened by TAIL-PCR to verify T-DNA integration and to distinguish between the individual transformation events. Several different types of border sequence arrangements were detected.

Conclusion

This study demonstrates that temporary immersion bioreactor system suits well for the regeneration of transgenic strawberry plants as a labour-efficient technique. Small amount of DNA required by TAIL-PCR is easily recovered even from a small transformant, which allows rapid verification of T-DNA integration and detection of separate gene transfer events. These techniques combined clearly facilitate the generation of transgenic strawberries but should be applicable to other plants as well.     

Length-dependent modulation of smooth muscle activation: effects of agonist, cytochalasin, and temperature

We tested thehypothesis that mechanical strain modulates agonist sensitivity ofsmooth muscle by measuring myosin phosphorylation and contractile forcein bovine tracheal smooth muscle activated by various concentrations ofthe muscarinic receptor agonist carbachol and at various musclelengths. Increasing carbachol concentration by 10,000-fold did notrestore myosin phosphorylation levels at shorter muscle lengths to thelevel at optimal length(L_o). Maximum levels of myosin phosphorylation induced by carbachol at 0.6, 0.8, and1.0 L_o weresimilar but became lower at <0.6L_o. Cytochalasin D significantly attenuated carbachol-induced contraction by 54%. Inaddition, cytochalasin D treatment induced a parallel downward shift inthe length-myosin phosphorylation relation. Lowering temperature from37 to 23°C did not significantly change the length dependencies ofcarbachol-induced active force and myosin phosphorylation. Theseresults have led us to conclude that1) agonist sensitivity and maximumlevel of activation (as measured by myosin phosphorylation) are targetsof length-dependent modulation, 2)actin filaments involved in contraction and length-dependent modulationare distinct in sensitivity to cytochalasin D, and3) length-dependent modulation isrelatively temperature insensitive.

     

Vectorial activation of smooth muscle myosin filaments and its modulation by telokin

Smooth muscle myosin copurifies with myosin light chain kinase (MLCK) and calmodulin (CaM) as well as with variable amounts of myosin phosphatase. Therefore, myosin filaments formed in vitro also contain relatively high levels of these enzymes. Thus these filaments may be considered to be native-like because they are similar to those expected to exist in vivo. These endogenous enzymes are present at high concentrations relative to myosin, sufficient for rapid phosphorylation and dephosphorylation of the filaments at rates comparable to those observed for contraction and relaxation in intact muscle strips. The phosphorylation by MLCK/CaM complex appears to exhibit some directionality and is not governed by a random diffusional process. For the mixtures of myosin filaments with and without the endogenous MLCK/CaM complex, the complex preferentially phosphorylates its own parent filament at a higher rate than the neighboring filaments. This selective or vectorial-like activation is lost or absent when myosin filaments are dissolved at high ionic strength. Similar vectorial-like activation is exhibited by the reconstituted filament suspensions, but the soluble systems composed of isolated regulatory light chain or soluble myosin head subfragments exhibit normal diffusional kinetic behavior. At physiological concentrations, kinase related protein (telokin) effectively modulates the activation process by reducing the phosphorylation rate of the filaments without affecting the overall phosphorylation level. This results from telokin-induced liberation of the active MLCK/CaM complex from the filaments, so that the latter can also activate the neighboring filaments via a slower diffusional process. When this complex is bound at insufficient levels, this actually results in acceleration of the initial phosphorylation rates. In short, I suggest that in smooth muscle, telokin plays a chaperone role for myosin and its filaments.     

Molt cycle-associated changes in calcium-dependent proteinase activity that degrades actin and myosin in crustacean muscle

The role of calcium-dependent proteinase (CDP) in the proecdysial atrophy of crustacean claw muscle has been investigated. During atrophy the molar ratio of actin to myosin heavy chain decreased 31%, confirming earlier ultrastructural observations that the ratio of thin:thick myofilaments declined from 9:1 to 6:1 (D. L. Mykles and D. M. Skinner, 1981, J. Ultrastruct. Res., 75, 314–325). The release of TCA-soluble material in muscle homogenates at neutral pH was stimulated by Ca²⁺ and completely inhibited by EGTA. The specific degradation of the major myofibrillar proteins (actin, myosin heavy and light chains, paramyosin, tropomyosin, troponin-T, and troponin-I) was demonstrated by SDS-polyacrylamide gel electrophoresis. Proteolytic activity was more than twofold greater in proecdysial muscle homogenates. Degradation of myofibrillar proteins was inhibited by EGTA, and the two inhibitors of cysteine proteinases, leupeptin and antipain, but not pepstatin, an inhibitor of aspartic proteinases. Unlike CDPs from vertebrate muscle, the CDP(s) in crab claw muscle degrades actin and myosin in addition to other myofibrillar proteins.     

Spatiotemporal calcium dynamics in single astrocytes and its modulation by neuronal activity

Astrocytes produce a complex repertoire of Ca²⁺ events that coordinate their major functions. The principle of Ca²⁺ events integration in astrocytes, however, is unknown. Here we analyze whole Ca²⁺ events, which were defined as spatiotemporally interconnected transient Ca²⁺ increases. Using such analysis in single hippocampal astrocytes in culture and in slices we found that spreads and durations of Ca²⁺ events follow power law distributions, a fingerprint of scale-free systems. A mathematical model demonstrated that such Ca²⁺ dynamics can arise from intracellular inositol-3-phosphate diffusion. The power law exponent (α) was decreased by activation of metabotropic glutamate receptors (mGluRs) either by specific receptor agonist or by low frequency stimulation of glutamatergic fibers in hippocampal slices. Decrease in α indicated an increase in proportion of large Ca²⁺ events. Notably, mGluRs activation did not increase the frequency of whole Ca²⁺ events. This result suggests that neuronal activity does not trigger new Ca²⁺ events in astrocytes (detectable by our methods), but modulates the properties of existing ones. Thus, our results provide a new perspective on how astrocyte responds to neuronal activity by changing its Ca²⁺ dynamics, which might further affect local network by triggering release of gliotransmitters and by modulating local blood flow.     

Neuromuscular transmission in a primitive insect: modulation by octopamine, and catch-like tension

The third pair of legs of the primitive New Zealand orthopteran insect, the " weta ", has and innervation and muscle cell distribution exactly similar to that of locusts, but wetas do not jump. Neuromuscular transmission to the slow excitatory axon ( SETi ) is potentiated more than 10-fold by the natural modulator octopamine (OCT). A brief burst of SETi impulses following infusion of as little as 10(-8) M OCT is followed by a very long-lasting plateau of catch-like tension (CT). The plateau is abruptly relaxed by a single inhibitory impulse, or even by a single SETi impulse if this arrives no sooner than about 30 sec following excitation. CT is used by wetas in a defense posture. Locusts and grasshoppers have a different type of modulation by OCT.     

Rapid bidirectional modulation of mRNA expression and export accompany long‐term facilitation and depression of Aplysia synapses

Serotonin (5‐HT) and the neuropeptide Phe‐Met‐Arg‐Phe‐amide (FMRFa) modulate synaptic efficacy of sensory neurons (SNs) of Aplysia in opposite directions and for long duration. Both long‐term responses require changes in mRNA and protein synthesis. The SN‐specific neuropeptide, sensorin A, is a gene product that appears to be increased by 5‐HT and decreased by FMRFa. We examined whether changes in sensorin A mRNA levels in the cell body and neurites of SNs accompany long‐term facilitation and depression. Both 5‐HT and FMRFa evoked rapid changes in sensorin A mRNA levels in the SN cell bodies: an increase with 5‐HT and a decrease with FMRFa. Parallel changes in sensorin A mRNA levels in SN neurites were detected 2 h and 4 h later. These rapid changes in mRNA expression and net export required the presence of the appropriate target motor cell L7. The neuromodulators failed to produce changes in mRNA expression or export when SNs were cultured alone or with the inappropriate target cell L11. The changes in mRNA expression were transient because mRNA levels returned to control values 24 h after treatment, while synaptic efficacy remained altered by the respective treatments. These results indicate that two neuromodulators produce distinct, but transient, target‐dependent effects on expression and export of a cell‐specific mRNA that correlate with changes in synaptic plasticity. © 2000 John Wiley & Sons, Inc. J Neurobiol 46: 41–47, 2001     

Content and partial characterization of collagen in crustacean muscle

• 1.1. The collagen content in the abdominal muscle of seven species including shrimp, prawn, lobster and squilla varied among the species ranging from 1.1 to 6.2% of total tissue protein and the content in pereiopod and thoracic muscles of four species of crab varied ranging from 0.2 to 0.8%.
• 2.2. These results indicate that the musculature in flexible part comprises a high proportion of collagen.
• 3.3. The major collagen from the crustacean muscle was found to be similar to Type V collagen from the vertebrate muscle with respect to the solubility and amino acid composition.

     

Long term lily scale bulblet storage: effects of temperature and storage in polyethylene bags

Collections of lily genotypes are usually maintained by yearly planting, harvesting and storage of the bulbs. To facilitate this maintenance, a storage method has been developed for a collection of lily genotypes, including Asiatic hybrids, Oriental hybrids, Lilium longiflorum and L. henryi. Scale bulblets were stored either dry, sealed air-tight in polyethylene bags, or in moist vermiculite in open polyethylene bags for a period of 2 yr. The decrease in mass, sprouting proportion and ion leakage or sprouting proportion alone were determined for treatments carried out at -2°C, °C and 17°C. Sealing scale bulblets in polyethylene bags at -2°C resulted in the smallest decrease in mass, the least ion leakage and the highest sprouting proportion after 2 yr of storage.     

Substrate-concentration of dependences of tension, shortening velocity and ATPase activity of glycerinated single muscle fibers

Tension P0 and ATPase activity J0 of glycerinated single muscle fibers under isometric concentration as well as the velocity V0 of unloaded shortening were measured as a function of substrate concentration [S]. The stiffness of fibers with sinusoidal length changes at 1 kHz was used as a qualitative measure of the amount of rigor complex. P0 is an increasing function of [S] at low substrate concentrations and has a broad maximum at about 10-40 micrometers MgATP. In this concentration range, 10-40 micrometers, V0 still has a very small value. Then it increases and finally reaches at a plateau at about 1 mM MgATP. J0 increases as P0 does. However, it reaches at a saturated level at about the same concentration as V0. Either 0.5 mM 8-BrATP or 1 mM PPi was added to the substrate solutions to reduce the amount of rigor complex at low substrate concentrations. The addition of PPi of 8-BrATP decreases P0 dominantly at low concentrations of substrate and shifts the maximum to about 100 micrometers MgATP. 8-BrATP considerably increases V0 at low substrate concentrations while V0 is decreased by added PPi. The temperature coefficients, Q10 values were obtained for P0, J0, and V0. The values are essentially constant, 2.1-2.4, in the cases of P0 and J0, and about the same values were found for V0 at very low substrate concentrations. However, they become about 3.3 in the concentration range from 34 micrometers and 2.3 mM. The P-V relation was obtained at 11 micrometers and 2.3 micrometers MgATP. The normalized P-V relation at 11 micrometers was unchanged when 8-BrATP was added. The results are discussed in connection with the mechanism of actomyosin-ATPase activity as well as that of the elementary cycle of the motive force generation.