Fluorescent monitoring of Jurkatt cell intracellular magnesium during metabolic poisoning.

Divalent cation movement characterizes the final common pathway of cellular death from ischemic or metabolic injury. The influx of calcium is an essential step in cellular death. We hypothesized that intracellular magnesium levels may change during the progression to cellular death. Verapamil-sensitive changes in free ionized intracellular Mg2+ ([Mg2+[i) and Ca2+ ([Ca2+]i) levels were estimated in transformed T-lymphocytes exposed to metabolic inhibitors. Separate experiments used a Mg(2+)-sensitive fluoroprobe, fura-2 (Ex 1,344, Ex 2,376, Em 500), and a Ca(2+)-sensitive fluoroprobe, fura-2 (Ex 1,340, Ex 2,380, Em 510). Chemical anoxia (sodium cyanide 1 mM, iodoacetic acid 10 mM) caused a gradual increase in [Ca2+]i (control 126 +/- 13 nM) to > 1 mM by 10 min. This increase in [Ca2+]i was not affected by verapamil treatment. In separate experiments, [Mg2+]i levels were monitored during chemical anoxia. The specificity of mag-fura for Mg2+ over Ca2+ was reflected in the absence of a response to the lymphocyte Ca2+ mobilizer OKT-3. Uncorrected control [Mg2+]i levels (.4 +/- .1 mM) were not affected by the combined cyanide-iodoacetate treatment. A small increase in mag-fura-2 fluorescence was noted, probably due to binding of Ca2+ to the fluoroprobe when [Ca2]i exceeded 1 mM. Elimination of Ca2+ from the extracellular buffer increased the resting estimate of intracellular [Mg2+] to 1.6 + .1 mM. These results indicate that 1) extracellular Ca2+ can interfere with the fluorescent determination of intracellular magnesium concentration, and 2) intracellular free Mg2+ concentrations do not change in this cell line during chemical anoxia.

Failure to elicit conditioned taste aversion by severe poisoning.

In an attempt to assess the universal validity of the conditioned taste aversion (CTA) paradigm, various types of poisoning (UC) were associated with the gustatory CS. Water deprived rats were habituated for two days to the drinking box, where water was available for 15 min. On Day 3, access to the CS (0.1% saccharin 15 min) was followed after 30 min by a sublethal dose of the poison (0.15 M LiCl, 4% body weight; 0.1 M sodium malonate, 1% body weight; pyrrolopyrimidine drug BW 58-271, 15 mg/kg; sodium cyanide 4 mg/kg; sodium iodoacetate 40 mg/kg; sodium fluoride 30 mg/kg; gallamine triethiodide 40 mg/kg). Rats injected with the last drug were maintained under artificial respiration until muscular paralysis disappeared. After 4 days of recovery, water deprivation schedule was resumed on Days 8 and 9. During the retention test on Day 10 saccharin consumption dropped by 60% in the LiCl poisoned rats, but not CTA developed in animals poisoned by pyrrolopyrimidine, gallamine, malonate and cyanide. CTA of intermediate intensity was evoked by iodoacetate and fluoride. The absence of CTA was not due to the amnesic effect of poisoning, since LiCl administration to NaCN poisoned rats produced CTA of usual intensity. It is concluded that CTA is not related to the overall severity of poisoning but rather to the effect of the poison on specific interoceptors.

[Tetanic fatigue and proximate post-tetanic recuperation in sartorius and flexor carpi radialis muscles of the male frog. Effects of iodoacetic acid (author's transl)]. / Fatigue tétanique et récupération post-tétanique immédiate dans les muscles sartorius et flexor carpi radialis de la grenouille mâle. Effets de l'acide iodoacétique

The time-course of the isometric tension output, at 20 degrees C, during a long tetanus and after a short period of rest, was investigated in two isolated frog muscles : the sartorius and flexor carpi radialis muscles. To prevent aerobie and glycolytic recovery processes, some muscles were poisoned with 0,4 mM iodoacetic acid (IAA) and nitrogen, for 20 or 40 min. 1. For the unpoisoned sartorius muscle, tetanic tension declined quickly, but after a 0,8 sec period of rest, the muscle was able to develop high tension. Poisoning with IAA-N2 increased fatigue without suppressing the property of a proximate post-tetanic recuperation. 2. In the flexor carpi radialis muscle resistance to fatigue was very large before poisoning and diminished after poisoning. Proximate recuperation was very weak. 3. The results show that the recovery processes are not a primary factor of the development of the short-term fatigue ; they enhance the hypothesis that a failure of the electromechanical coupling can explain the rate of the tension fall in tetanized sartorius muscles.