Formation of acetylcholine receptor clusters at neuromuscular junction in Xenopus cultures

The formation of acetylcholine receptor (AChR) clusters at the neuromuscular junction was investigated by observing the sequential changes in AChR cluster distribution on cultured Xenopus muscle cells. AChRs were labeled with tetramethylrhodamine-conjugated alpha-bungarotoxin (TMR-alpha BT). Before innervation AChRs were distributed over the entire surface of muscle cells with occasional spots of high density (hot spots). When the nerve contacted the muscle cell, the large existing hot spots disappeared and small AChR clusters (less than 1 micron in diameter) initially emerged from the background along the area of nerve contact. They grew in size, increased in number, and fused to form larger clusters over a period of 1 or 2 days. Receptor clusters did not migrate as a whole as observed during "cap" formation in B lymphocytes. The rate of recruitment of AChRs at the nerve-muscle junction varied from less than 50 binding sites to 1000 sites/hr for alpha BT. In this study the diffusion-trap mechanism was tested for the nerve-induced receptor accumulation. The diffusion coefficient of diffusely distributed AChRs was measured using the fluorescence photobleaching recovery method and found to be 2.45 X 10(-10) cm2/sec at 22 degrees C. There was no significant difference in these values among the muscle cells cultured without nerve, the non-nerve-contacted muscle cells in nerve-muscle cultures, and the nerve-contacted muscle cells. It was found that the diffusion of receptors in the membrane is not rate-limiting for AChR accumulation.     

Mechanism of the stimulatory effect of cyclodextrins on lankacidin-producing Streptomyces

Summary Gel-filtration analysis of a mixture of cyclodextrin (CyD) and lankacidin C showed that -CyD had strong, -CyD weak and -CyD no affinity for lankacidin C. Lankacidin C production activity, which was assayed by measuring the incorporation of l-[methyl-¹⁴C-]methionine into the lankacidin molecule, was the greatest with cells grown in the presence of -CyD, less with -CyD and the least with -CyD. Lankamycin and T-2636M, which are by-products in lankacidin C fermentation, were not included by -CyD and their production was not stimulated by -CyD. It was apparent that the stimulatory effect of CyD was closely related to the formation of an inclusion complex between CyD and the antibiotic. Lankacidin C biosynthesis was repressed by preincubating cells with lankacidin C, while the repressive effect of lankacidin C was abrogated by the inclusion by -CyD. Thus, abrogation of feed-back repression seems to be a main mechanism of the effect of CyD. However, -CyD, which had no affinity for lankacidin C, stimulated the production to the least extent and exhibited a complementary effect on the stimulation by -CyD or -CyD. -CyD also caused a change in cell morphology and cell-surface hydrophobicity. It was assumed that the modification of the cell surface is a secondary mechanism of the effect of CyD.The second report of the stimulatory effect of cyclodextrins on lankacidin fermentationOffprint requests to: H. Sawada     

Aspergillus taichungensis,a new species from Taiwan

Aspergillus taichungensis isolated from a soil sample collected in Taiwan is described as a new species. The new species is characterized by its restricted growth on Czapek's and malt extract agars and its white to light yellow colonies, radiate conidial heads, smooth and often diminutive conidiophores, hemispherical to elongate vesicles with biseriate aspergilla (conidiogenous cells), globose, micro-verrucose conidia and dark brown sclerotia. The species somewhat resemblesA. versicolor, A. terreus andA. flavipes, but differs in cultural and morphological details, and is considered to represent an interface species in the subgenusNidulantes.     

Materials for the fungus flora of Japan (49)

Two interesting microfungi are described as new to Japan:Talaromyces galapagensis (anam.Penicillium galapagense), isolated from soil in Shizuoka; andPenicillium megasporum, isolated from marine sludge in Nagasaki. Some observations are recorded, particularly on ascomatal initials ofT. galapagensis, which are similar to those described forTalaromyces flavus.(48): Kaneko, S., Mycoscience 36: 359–360, 1995.     

Talaromyces lagunensis,a new species from Philippine soil

A new species ofTalaromyces (Ascomycetes; Trichocomaceae) with aPenicillium anamorph,T. lagunensis, is described and illustrated. This fungus is characterized by its extremely restricted growh on Czapek-yeast extract agar, light yellow to light orange ascomata with a telaperidium, catenate, pyriform or ellipsoidal asci, ellipsoidal or subglobose ascospores with a microtuberculate wall, short conidiophores with an irregular, mostly monoverticillate to biverticillate penicillus, and subglobose to ovoid conidia. The holotype was isolated from forest soil in the Philippines.     

Clonal expansion of superantigen-reactive T cells is resistant to FK506 in mice with AIDS.

Subcutaneous injection of FK506 (10 mg/kg of body weight) completely blocked the clonal expansion of staphylococcal enterotoxin A (SEA)-reactive T cells in healthy (control) mice after SEA injection but did not disturb it in mice with murine AIDS (MAIDS) caused by infection with LP-BM5 murine leukemia virus. MAIDS mice are characterized by utilization of a FK506-insensitive pathway for clonal expansion of superantigen-reactive T cells.     

Denervation disperses acetylcholine receptor clusters at the neuromuscular junction in Xenopus cultures

The effect of denervation on acetylcholine receptor (AChR) cluster distribution on cultured Xenopus muscle cells has been examined in order to study the role of intact nerve in the maintenance of clusters at the nerve-muscle junction during development. AChRs on the muscle cell were labeled with tetramethyl rhodamine-conjugated alpha-bungarotoxin and sequential changes in AChR cluster distribution were examined with a fluorescence microscope using an image intensifier. Denervation was carried out by exposing the nerve cell body to a focused laser light of a high intensity. After this procedure the neurites originating from the cell quickly disintegrated and large AChR clusters associated with nerve divided into smaller clusters. Individual clusters subsequently decreased in size and finally disappeared. In about 30% of the cases new AChR clusters appeared at the extrajunctional region after denervation. These observations indicate that intact nerves are necessary for the maintenance of receptor localization at the nerve-muscle junction and that nerve-induced accumulation is seemingly reversible during the early period of synapse formation. We tested the idea that receptor clusters were lost due to diffusion of receptors in the muscle membrane after denervation. However, the rate of receptor cluster dispersal after denervation was much slower than that predicted by the diffusion model, suggesting that diffusion of receptors is not a rate-limiting step. Furthermore, we found that receptor clusters at the junction stabilize during days in culture. Thus, 80-90% of receptor clusters at the nerve-muscle junction disappeared at 7 hr after denervation in 1-day cocultures, while about 50% of receptor clusters remained after denervation in 3-day cocultures.     

The development of functional neuromuscular junctionsin vitro: An ultrastructural and physiological study

Neuromuscular junctions were formedin vitro between rat spinal cord explants and myotubes. At various intervals after the spinal cord explants were added to the myotube culture (7 hr to 15 days of coculture), the presence of functional neuromuscular junctions was determined by recording miniature endplate potentials (mepps) from the myotubes contacted by a few neurites. Electron microscopical studies were conducted on identified myotubes in which mepps were recorded. Mepps were already found as early as 7 hr after coculture. The fine structure of these newly formed neuromuscular junctions was simple. No synaptic specializations were observed except the presence of a small number of synaptic vesicles in the nerve. The neuromuscular junctions differentiated during the coculture period. Synaptic vesicles formed a cluster at the prejunctional membrane with a localized density in the middle. Basal lamina started to form in 4-day-old cocultures and became continuous in cocultures of 10 days or longer. Clear postjunctional foldings were observed in 15-day-old cocultures. Higher mepp frequencies were correlated with more advanced ultrastructure.     

Changes in synaptic potential properties during acetylcholine receptor accumulation and neurospecific interactions in Xenopus nerve-muscle cell culture

Acetylcholine receptors in the muscle cell membrane accumulate at the nerve contact area in Xenopus cell cultures. The correlation between spontaneous synaptic potential properties and extent of acetylcholine receptor accumulation was studied. Small and infrequent miniature endplate potentials were measured before acetylcholine receptor accumulation which was observed with fluorescence microscopy using tetramethylrhodamine-conjugated α-bungarotoxin. As acetylcholine receptors accumulate at the nerve contact area, these synaptic potentials become larger and their frequency increases dramatically. In nerve-contacted muscle cells where spontaneous synaptic activity could not be detected, extensive acetylcholine receptor accumulation was not found at sites of nerve contact. Furthermore, muscle cells which exhibited extensive acetylcholine receptor accumulation along the nerve always produced miniature endplate potentials. Thus acetylcholine receptor accumulation and the presence of miniature endplate potentials were strongly correlated. Noncholinergic neurons from dorsal root ganglia did not form functional synaptic contacts with muscle cells nor acetylcholine receptor accumulation along the path of contact. Furthermore, explants from tadpole spinal cord formed functional synaptic contacts with muscle cells but rarely caused AChR localization. These data are discussed in terms of developmental processes during neuromuscular junction formation.     

Fast polyspermy block and activation potential : Correlated changes during oocyte maturation of a starfish

Sperm entry into the oocyte of the starfish, Asterina pectinifera, was prevented when the membrane potential of the oocyte was held more positive than −10 to −5 mV, and multiple sperm entries were induced when the potential was held more negative. Based on this potential-dependent fertilization block mechanism, it was demonstrated that an activation potential (AVP) which is induced immediately after the attachment of the first sperm to the egg surface plays the role of a fast polyspermy block. The AVP-mediated polyspermy block mechanism develops as the oocyte matures and deteriorates as it ages. AVPs of mature oocytes exceeded −5 mV (the critical potential level for fertilization block) within 1 sec, and the potential stayed at +12 mV even after the initiation of fertilization membrane elevation. Consequently, the entry of a second sperm is prevented. In contrast, AVPs of overripe oocytes took about 15 sec to attain −5 mV, or they did not attain −5 mV at all. In overripe oocytes multiple sperm entries were associated with “step depolarization(s)” in the rising phase of the AVPs before membrane elevation took place. Immature oocytes generated AVPs associated with sperm entries, but without membrane elevation. AVPs in immature oocytes were characterized by the step depolarization(s) in the rising phase, and an AVP could be evoked again by a second insemination 20 min after the first insemination. These findings indicate that immature oocytes lack both fast and slow polyspermy block mechanisms.