Previous data have suggested that the large nerve terminals present in the synaptosomal fraction from squid optic lobe are capable of protein synthesis (Crispino et al., 1993a,b). We have further examined this issue by comparing the translation products of synaptosomal and microsomal polysomes. Both preparations programmed an active process of translation, which was completely abolished by their previous treatment with EDTA. After immunoabsorption of the newly synthesized neurofilament (NF) proteins, the labeling ratio of the 60 and 70 kDa NF proteins was found to differ, in agreement with comparable differences obtained with intact synaptosomes. These observations indicate that the set of mRNAs translated by synaptosomes differs from that translated by nerve cell bodies. Hence, because NF proteins are neuron-specific, they support the view that the active synaptosomal polysomes are mostly localized in the large nerve terminals that represent the most abundant neuronal component of the fraction. This hypothesis was confirmed (1) by electron spectroscopic data demonstrating the presence of ribosomes and polysomes within the large nerve endings of the synaptosomal fraction, as well as in the carrotlike nerve endings of the retinal photoreceptors that constitute the only large terminals in the optic lobe, and (2) by light and high resolution autoradiography of synaptosomal samples incubated with [3 H]leucine, showing that most labeled proteins are associated with the large nerve endings. This response was abolished by cycloheximide. Taken together, the data provide the first unequivocal demonstration that presynaptic nerve terminals are capable of protein synthesis.
Benech JC, Benech N, Zambrana AI, Rauschert I, Bervejillo V, Oddone N, Damián JP. Diabetes increases stiffness of live cardiomyocytes measured by atomic force microscopy nanoindentation. Am
This work investigates the potential of glycosylation to actively target nanodrug delivery systems to adult solid tumors overexpressing glucose transporters. The highly hydrophobic fluorescent compound curcumin (CUR) is nanoencapsulated within polymeric micelles of pristine and glucosylated poly(ethylene oxide)‐poly(propylene oxide) block copolymers, and their interaction with breast cancer (BC) cells is investigated in vitro and in vivo. The aqueous solubility of CUR is increased more than 50 000‐fold and spherical nanoparticles display size in the 40 to 500 nm range, as determined by transmission electron microscopy and by dynamic light scattering, respectively. Uptake studies conducted in the BC cell line 4T1 in vitro demonstrate that glucosylation enhances nanoparticle internalization. Finally, the ability of unmodified and glucosylated polymeric micelles to accumulate in female BALB/c mice bearing 4T1‐induced tumors is compared by ex vivo bioimaging with auspicious results.
Immediately after wounding, bovine corneal endothelial cells develop a fast calcium wave that propagates from the wound border to the rest of the monolayer and extinguishes in approximately 5 minutes. One hour after wounding, a late, slow calcium wave (SCW) develops concomitantly to the depolarization of the plasma membrane potential of the border cells. The incorporation of inhibitors of the epithelial sodium channel and of the sodium-calcium exchanger produces inhibition of the membrane depolarization and the SCW, and diminishes the rate of wound healing. The L-type calcium channel blocker nimodipine does not have any effect on the SCW. The reversible inhibition of the fast calcium wave does not affect the SCW and only slightly decreases the velocity of healing. Our results suggest that the SCW is at least partially produced by the coupling of the epithelial sodium channel and the sodium-calcium exchanger functioning in reverse mode. They also suggest that the SCW may play a role in the overall healing process.
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