Copper-zinc superoxide dismutase activity in red blood cells and serum in demented patients and in aging.

The activity of the enzyme copper-zinc superoxide dismutase (Cu-Zn SOD) has been investigated in serum and red blood cells (RBC) homogenate obtained from demented patients with associated vascular lesions (VD), demented patients with probable Alzheimer's disease (DAT) and healthy controls (CG) of the same age. The increase in SOD activity was statistically significant (P < 0.01) in RBCs homogenate of DAT and VD patients, when compared to controls, but no differences appear between the two diseases groups. Additionally, a statistically significant increase in SOD activity (P < 0.01) in DAT patients above 70 years as compared to those 50-70 years old, and a relation between SOD and age were found. No changes in SOD activity with age in healthy controls nor in vascular dementia group were detected. A statistically significant increase in Circulating SOD activity (P < 0.01) was observed in vascular patients compared to controls. The observed increase in DAT Circulating SOD activity (against CG) was not significant. The increased levels of Cu-Zn SOD, probably represent a general alteration of the oxidative processes characteristic of these dementias and suggest that the enzyme might be used as a marker.

Dissociation of the crotoxin complex promoted by acetylcholine.

Neuromuscular blockage at the presynaptic level is the main biological effect exerted by crotoxin, the major toxin from Crotalus durissus terrificus venom. This effect requires the dissociation of this complex at the target membrane in spite of its tightness and stability under physiological conditions of pH, ionic composition and temperature. Complex dissociation should be determined by a specific set of physicochemical conditions prevailing at the neuromuscular junction. In this regard, we have studied the effect of acetylcholine on the stability of the crotoxin complex, since this effector is present at relatively high concentrations near the presynaptic membrane of the neuromuscular junction. Evidences arising from spectrofluorometric measurements, changes in enzymatic activity and crotoxin B inactivation by b-bromophenacyl bromide indicate that acetylcholine is indeed able to promote complex dissociation at neutral pH values, apparently by titration of 2-3 carboxylate groups in crotoxin A. This effect may, at least in part, contribute in determining the target specificity of this toxin.

Dissociation of the crotoxin complex promoted by acetylcholine.

Neuromuscular blockage at the presynaptic level is the main biological effect exerted by crotoxin, the major toxin from Crotalus durissus terrificus venom. This effect requires the dissociation of this complex at the target membrane in spite of its tightness and stability under physiological conditions of pH, ionic composition and temperature. Complex dissociation should be determined by a specific set of physicochemical conditions prevailing at the neuromuscular junction. In this regard, we have studied the effect of acetylcholine on the stability of the crotoxin complex, since this effector is present at relatively high concentrations near the presynaptic membrane of the neuromuscular junction. Evidences arising from spectrofluorometric measurements, changes in enzymatic activity and crotoxin B inactivation by b-bromophenacyl bromide indicate that acetylcholine is indeed able to promote complex dissociation at neutral pH values, apparently by titration of 2-3 carboxylate groups in crotoxin A. This effect may, at least in part, contribute in determining the target specificity of this toxin.

[Resistance of Crotalus durissus terrificus and Bothrops neuwiedii to the neurotoxicity of massive quantities of Crotalid venom]. / Resistencia de Crotalus durissus terrificus y Bothrops neuwiedii a la neurotoxicidad de cantidades masivas de veneno crotálico.

The antitoxic potency of crude Crotalus durissus terrificus serum against crotalic venom is similar to that of a standard horse anticrotalic serum in protecting mice against 4 LD50, while the potency of Bothrops neuwiedii serum is 20% of the latter. Failure to form precipitin lines in immunodiffusion tests suggests that the antitoxic factors present in the sera from both species are not immunoglobulins. It is, therefore, probable that crotoxin is not neutralized by an antigen-antibody reaction, but rather by formation of inactive complexes with specific serum components. Resistance to the venom is not reciprocal, since specimens of C. d. terrificus die after the injection of similar amounts of B. neuwiedii venom, which are tolerated by the homologous species.

Resistencia de Crotalus durissus terrificus y Bothrops neuwiedii a la neurotoxicidad de cantidades masivas de veneno crotálico. / [Resistance of Crotalus durissus terrificus and Bothrops neuwiedii to the neurotoxicity of massive quantities of Crotalid venom]

The antitoxic potency of crude Crotalus durissus terrificus serum against crotalic venom is similar to that of a standard horse anticrotalic serum in protecting mice against 4 LD50, while the potency of Bothrops neuwiedii serum is 20

of the latter. Failure to form precipitin lines in immunodiffusion tests suggests that the antitoxic factors present in the sera from both species are not immunoglobulins. It is, therefore, probable that crotoxin is not neutralized by an antigen-antibody reaction, but rather by formation of inactive complexes with specific serum components. Resistance to the venom is not reciprocal, since specimens of C. d. terrificus die after the injection of similar amounts of B. neuwiedii venom, which are tolerated by the homologous species.