Journal de physiologie最新文献

Recent work in this laboratory has begun to cast light on the biochemical mechanisms by which a cell stores associatively acquired information. This appears to occur principally via two general pathways. The first seems to be a long-term activation of protein kinase C (resulting in long-term alterations in protein phosphorylation) while the second involves changes in RNA synthesis. One striking aspect of these mechanisms in that they seem to be conserved across the species we have studied (rabbit and Hermissenda). In the present paper we review some of the studies that support the role of protein kinase C activation and RNA synthesis in memory formation.

The physiological effect of 1,25-(OH)2D3 on the regulation of calcitonin (CT) secretion was studied by measuring plasma CT levels and CT mRNAs extracted from thyroid glands of normal (D+) or partially vitamin D-depleted rats (D-). In both groups, acute 1,25-(OH)2D3 administration of 0.1 microgram/kg b.w. yielded an early drop in plasma calcium concentrations (around 0.6-1 mg/dl) with a maximum decrease 15 min after treatment. In spite of this hypocalcemia, a significant rise in plasma CT levels was observed within 5 min in D+ animals and within 30 min in D- animals after injection of the vitamin D metabolite. Nevertheless, the increased CT secretion was not associated with a marked and sustained rise in CT mRNA levels measured by dot-blot hybridization or CT mRNA activity evaluated by translation assay. By contrast to the observations made previously using supra-physiological doses of the vitamin D metabolites, no clear-cut effect on CT mRNA levels was found with lower doses. If we hypothesized that 1,25-(OH)2D3 plays a physiological role in CT secretion, our results suggest that this rapid control could be exerted at a post-translational level may be via an increase in the cytoplasmic ionized calcium concentration of C-cells.

1.) Three types of training experiments (a complex motor task, avoidance conditioning and classical conditioning) in the goldfish and one in the mouse (T-maze learning) indicate that the brain extracellular glycoprotein (ependymin) has a role in the consolidation process of long-term memory formation. 2.) Direct ELISA measures of the concentration of ependymin in the brain extracellular fluid (ECF) indicate that its level decreases after goldfish learn to associate a light stimulus (cs) with the subsequent arrival of a shock (US): paired CS-US gave changes whereas an unpaired presentation of CS-US gave no changes in comparison to unstimulated controls. 3.) Ependymin is released into ECF and CSF as mixtures of three types of disulfide-linked dimers of two acidic polypeptide chains (M. W. 37 kDa and 31 kDa). It contains 10% carbohydrate as an N-linked glycan. 4.) Ependymin has the capacity to polymerize in response to events that deplete Ca2+ from the brain extracellular environment. A molecular hypothesis relating polymerization properties to the process of formation of long-lasting synaptic changes is proposed. 5.) Investigations of the pattern of regeneration of goldfish optic nerve and the mechanisms of long-term potentiation (LTP) of rat brain hippocampal slices suggest that ependymin has a role in the formation of long-lasting synaptic changes. The E.M. data show that polymerized products which stain with anti-ependymin sera accumulate at synapses and in new spines after LTP.

The few studies dealing with physiological (EEG, VEP) brain asymmetries in the processing of faces by neurologically intact subjects are critically reviewed from a psychological point of view. It emerges that a more careful selection of the cognitive tasks is needed, along with more prudent statistical planning. The difficulties of comparing physiological and behavioral asymmetries are also emphasized.

In order to gain insight into the molecular mechanisms underlying the establishment and maintenance of long-term sensitization in Aplysia new tools are being used to study the synaptic facilitation in the sensory-motor connection which mediates the gill-and-siphon withdrawal reflex. The supposition that long-term changes in neuronal properties share molecular pathways with other cells during development and differentiation points towards specific candidate genes as well as towards a general experimental strategy designed to find proteins which might mediate these changes. The unique properties of Aplysia cell biology may, in addition, provide a means to examine their specific roles in the triggering of the changes, as well as the nature of the changes themselves.

1.) Peripheral tissues injury produces long lasting sensory and motor disturbances in man that present as the post-injury hypersensitivity syndrome with a reduction in the threshold required to elicit either pain or the flexion withdrawal reflex and an exaggeration of the normal response to suprathreshold stimuli. 2.) Two mechanisms contribute to these changes; sensitization of the peripheral terminals of high threshold primary afferents and an increase in the excitability of the spinal cord; a phenomenon known as central sensitization. 3.) Central sensitization has previously been shown by our laboratory to be the consequence of activity in unmyelinated primary afferents. Brief (20 s) C-fibre strength conditioning stimuli have the capacity to produce both a prolonged heterosynaptic facilitation of the flexion reflex and an alteration in the response properties of dorsal horn neurones, that long outlast the conditioning stimulus. 4.) In the adult decerebrate-spinal rat preparation we have, using intracellular recordings of dorsal horn neurones, examined the time course of the central effects of different types of orthodromic inputs. The hemisected spinal cord preparation isolated from 12-14 day rat pups has been used to see whether prolonged alterations in dorsal horn properties induced by orthodromic inputs can be studied in vitro. 5.) Single stimuli applied to a cutaneous nerve at graded strengths to successively recruit A beta, A delta and C-afferents produce, in the majority of neurones recorded in the deep dorsal horn in vivo, a series of post synaptic potentials that last from between ten and several hundred milliseconds. 6.) Repeated low frequency stimulation of C but not A-afferent fibres results in a pattern of progressive response increment or windup in a proportion of dorsal horn neurones. In some of the neurones the windup is associated with a depolarization that outlasts the stimulus period for tens of seconds. 7.) Application of the chemical irritant mustard oil to the skin activates chemosensitive C-afferent fibres for 1-3 minutes. Such a conditioning stimulus results however in an expansion in the size and an alteration in the response properties of the receptive fields of dorsal horn neurones that lasts for tens of minutes. 8.) In dorsal horn neurones recorded intracellularly in the isolated hemisected spinal cord, both intrinsic membrane properties and the orthodromic responses to primary afferent input can be studied. Repeated stimulation of a dorsal root produces in some neurones a prolonged heterosynaptic facilitation with both an augmentation of the response to the conditioning root (homosynaptic potentiation) and to adjacent test roots (heterosynaptic potentiation).(ABSTRACT TRUNCATED AT 400 WORDS)

Autoinhibition of acetylcholine release by the coexisting peptide galanin in the septal afferents to the hippocampus of the rat was examined in tissue slices from the hippocampus. Galanin inhibits the evoked release of the coexisting neurotransmitter, acetylcholine, in the ventral hippocampus, providing an example of autoinhibition of release of a neurotransmitter by one of the coexisting neurotransmitters. The galanin mediated inhibition of the acetylcholine release is a complement to the well known strong cholinergic autoinhibition. The effects of the coexisting galanin and acetylcholine on several second messenger systems were also examined: acetylcholine acting at muscarinic receptors depresses cyclic adenosine 3',5'-monophosphate and stimulates elevation of cyclic guanosine 3',5'-monophosphate levels, whereas neither cyclic adenosine 3',5'-monophosphate nor cyclic guanosine 3',5'-monophosphate levels were affected by galanin (1 microM). Galanin however inhibited partly the muscarinic stimulation of phosphoinositide breakdown, suggesting that inositol phosphate(s) or diacylglycerol may act as second messenger(s) of the galanin action in the hippocampus. The effects of chronic changes in firing rate on the coexisting neurotransmitters in the rat ventral spinal cord containing serotonin, thyrotropin releasing hormone, substance P and substance K were examined. The tissue levels of the coexisting transmitters were studied in rats chronically treated with imipramine (14 days; 2 x 10 mumoles/kg/day) and zimelidine (14 days; 2 x 10 mumoles/kg/day). Upon treatment with zimelidine the tissue levels of the serotonin metabolite 5-hydroxyindoleacetic acid fall by 32% while thyrotropin releasing hormone levels seem to increase 35% and substance P/substance K levels also increase 48 and 72% respectively. Imipramine treatment resulted in similar although less pronounced changes.(ABSTRACT TRUNCATED AT 250 WORDS)

A complete model of the cholesterol system was developed in the rat. It synthesizes several partial models previously developed under different isotopic conditions. It contains 16 compartments and 40 parameters. It specifically describes the intestine (mucosa and contents), liver and plasma cholesterol subsystems. The model was validated by the similarity between the simulated and experimental values in all the compartments during the 48 hours following the single introduction of an isotopic label in two different parts of the system (single ingestion of 14C-cholesterol, intravenous injection of red cells containing 3H-cholesterol). The similarity between the simulations and the experimental values was also observed up to 4 months following labelled cholesterol ingestion as well as under other different isotopic conditions for shorter periods. The parameter values identified and the resulting fluxes agree with the already published data.

Aside from the digestive enzymes the submandibular salivary glands (SSG) synthetize other polypeptides, detected also in saliva, with varied biological activity; NGF and EGF are the knowest. However, over the last decade, steroids hormones have been also found out in the saliva at the same concentrations that the free plasma fraction. The origin of these hormones is largely discussed and certain authors have even proposed a local synthesis for them. This matter, is of clinical interest because gingiva and buccal tissues are knowingly sensitive to steroids. Besides, woman ovulation appears to be monitored through progesterone fluctuations in saliva. Another kind of salivary substances is formed by the neuropeptides of the gut-brain axis, mainly VIP and SRIF. The former likely of nervous origin seems to be involved in the atropine-resistant salivary secretion, whereas the latter-likely of SSG origin--appears as a factor associated with glycemia control.

Effects of non lethal concentrations of hexavalent chromium on intestinal enzymology of Salmo gairdneri and Dicentrarchus labrax (Pisces). The effects of an exposure to potassium dichromate on intestinal enzyme activities (Alkaline phosphatase, maltase, leucine amino peptidase and ATPases) have been studied on a fresh water fish (Salmo gairdneri) and a salt water fish (Dicentrarchus labrax). Fish were exposed at seasonal temperatures (13 or 21 degrees C) to toxic concentrations equal to 1/10 of the 24 h-LC 50 (i.e. 18 mg/l Cr for trout and 5 mg/l Cr for bass) during respectively 13 and 21 days. Intoxicated trout stopped feeding and showed a decrease in their intestinal weight at the end of the experiments. A decrease of brush border membrane activities (Alkaline phosphatase, maltase and leucine amino peptidase) were also observed. These alterations have been interpreted as the consequence of the chromium induces fasting. Intoxicated bass showed no alterations of their feeding habits. Two specific effects of chromium on enzyme activities have been found: a severe decrease of the alkaline phosphatase activity and an increase of the Na/K ATPase activity. These enzyme activities could be useful indicators of chromium intoxication in marine fish.