Immunotoxicological examination of repeated dose combined exposure by dimethoate and two heavy metals in rats

The immunotoxicity of 28 days combined oral exposure by dimethoate (DM) and two heavy metals (Pb or Cd) was investigated in male Wistar rats. Immunotoxic and no-effect doses of DM (28.2 and 7.04 mg/kg) were combined with immunotoxic and no-effect doses of CdCl2 (6.43 and 1.61 mg/kg) or lead acetate (80.0 and 20.0 mg/kg) in such a way that the high dose of each substance was given in combination with the no-effect dose of the other, To examine the interactions of these agents, general toxicological (body weight gain, organ weights), haematological (absolute and differential WBC, RBC, MCV, Ht, cell content of the femoral bone marrow), and immune function (splenic PFC number, DTH reaction) parameters were measured. Treatment with the combination of Pb or Cd and DM did not result in a reduction of humoral (PFC) and cellular (DTH) immune responses, whereas treatment with the substances alone did result in immune suppression, This protecting effect can probably be attributed to an effect on the kinetics of the compounds tested father than on the immune system itself, Further interactions were found in both combinations, DM-Cd and DM-Pb, in the body weight gain and in the relative liver weight; the DM-Pb combination also affected the relative thymus weight and the MCV value, These findings show that the immunotoxic effects of the investigated materials, including their detectability and health consequences, can be modified in case of combined exposure

Immunotoxicological effects of repeated combined exposure by cypermethrin and the heavy metals lead and cadmium in rats

The immunotoxic effect of a 28 days oral exposure by 55.4, 22.2, and 11.1 mg/kg cypermethrin (CY) was investigated in 4 weeks old male Wistar rats. The applied test system involved the determination of general toxicological parameters (body weight gain, organ weight of thymus, heart, lung, liver, spleen, kidneys, adrenals and the popliteal lymph node), haematological parameters (white blood cell count, red blood cell count, haematocrit, mean cell volume of red blood cells, cellularity of the femoral bone marrow), as well as immune function assays (splenic plaque forming cell assay, delayed type hypersensitivity reaction). The highest dose resulted in a significant increase of the relative liver weight, and all three doses resulted in (although inconsistent) changes in the haematocrit and MCV values. The maximum of DTH reaction decreased at all three doses. On combination of the highest CY dose with non-effective doses of lead or cadmium the immunotoxic effects of the former were modified. When immunotoxic doses of Cd or Pb were combined with the lowest CY dose, further interactions were observed on the examined parameters. The alterations of the immunotoxic effects of CY by simultaneous exposure with Cd or Pb, as described here, can lead to unexpected health consequences and/or can lead to false positive or negative results in human epidemiological studies. (C) 1999 International Society for Immunopharmacology. Published by Elsevier Science Ltd. All rights reserved

Simultaneous geno- and immunotoxicological investigations for early detection of organophosphate toxicity in rats

Detectability of toxic effects by repeated doses of dimethoate (DM) and methylparathion (MPT) were investigated by geno- and immunotoxicological methods in male Wistar rats following a 28-day oral exposure, In the dose range of 28.2, 14.1, and 7.04, and 7.04 mg/kg/day DM, the two higher doses decreased the body weight gain, The top dose increased the weight of liver, kidneys, and testicles; the white blood cell count; and the cell content of the femoral bone marrow. From immune function parameters measured [IgM-plaque forming cells (PFC) assay, delayed-type hypersensitivity (DTH) reaction] only the maximum of the DTH reaction decreased at the top dose. Of the MPT doses (0.872, 0.436, and 0.218 mg/kg/day) the two higher ones increased the liver weight, and a dose-dependent increase was found in the MCV value. No evaluable changes in the examined immune function parameters were observed. Both substances increased the number of numerical but not the structural chromosome aberretions at lower dose levels (the two larger doses of DM, and all the three doses of MPT) than those ones which caused changes in the examined immune function parameters. According to these results, the genotoxicological approach seems to be more sensitive for detection of repeated-dose oral toxicity of the investigated two organophosphates than the immunotoxicological one. (C) 2000 Academic Press

Immunotoxicological investigation of subacute combined exposure by permethrin and the heavy metals arsenic(III) and mercury(II) in rats

Effects of combined 28 days of oral exposure to the insecticide Permethrin (Pe), alone or in combination with arsenic-III (As) or Hg-II (Hg), were investigated on certain toxicological (body weight, organ weights), haematological (white blood cell (WBC) and red blood cell (RBC) counts, haematocrit (Ht), mean cell volume (MCV). cell content of the femoral bone marrow) and immune function (IgM-PFC, delayed-type hypersensitivity (DTH) reaction) parameters of male Wistar rats. Immunotoxic (H = high) and NOEL (L = low) doses of the three substances were determined in preliminary experiments under identical experimental conditions. In the present study, the immunotoxic dose of Pe (126 mg/kg) was combined with the NOEL dose of As (3.33 mg/kg) or Hg (0.40 mg/kg), and the NOEL dose of Pe (12.6 mg/kg) with the immunotoxic dose of As (13.3 mg/kg) or tig (3.20 mg/kg). A separate group of animals, treated with the appropriate high dose component only, was used as internal control. Significant interactions were observed in the liver weight of the animals treated with Pe(H)-As(L) or As(H)-Pe(L), in the cell content of the femoral bone marrow in case of Pe(H)-As(L) and Pe(H)-Hg(L) combinations, as well as in the number of PFCs formed from 10(6) spleen cells in the Pe(H)-As(L) and in the maximum of DTH reaction in the Hg(H)-Pe(L) combination. The results show that combined exposures by the investigated substances modify the toxic (including immunotoxic) effects of the single compounds. These findings rise the probability that the interactions observed can also be present in human situations altering the health hazard of this three chemicals. (C) 2001 Elsevier Science B.V. All rights reserved