In vitro cytotoxicity of textile paint components linked to the "Ardystil syndrome".
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The spraying of a paint formula (Acramin F system) had led to severe pulmonary disease in textile printing sprayers in Spain and Algeria (Ardystil syndrome). In order to elucidate the underlying mechanisms of the toxicity of this paint and its main polymeric components, Acramin FWR, Acramin FWN, Acrafix FHN, and Acramoll W, we have undertaken studies using a battery of different cell-types and assessing in vitro cytotoxicity by measuring LDH leakage. This study shows that, as in in vivo studies, the three polycationic paint components, Acramin FWR (a polyurea), Acramin FWN (a polyamide-amine), and Acrafix FHN (a polyamine) exhibited considerable cytotoxicity (LC50 generally below 100 microg/ml for an incubation of 20-24 h) in vitro, while Acramoll W, which is not a polycation, was almost non-toxic (in the concentration range tested). The cytotoxicity was comparable in primary cultures of rat and human type II pneumocytes and alveolar macrophages as well as in the pulmonary cell line A549 and the hepatic cell line HepG2. In human erythrocytes, the toxicity was less pronounced. We speculate that the multiple positive charges play an important role in the toxic mechanism. It is concluded that Acramin FWR and Acramin FWN have similar intrinsic toxicity and that these polymeric compounds, which have no irritant properties or systemic toxicity when given orally, exert a high, unexpected, degree of cytotoxicity. (+info)
MST-16, a novel bis-dioxopiperazine anticancer agent, ameliorates doxorubicin-induced acute toxicity while maintaining antitumor efficacy.
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MST-16 [4,4-1,2-(ethanediyl)bis(1-isobutoxycarbonyl-oxy-methyl-2,6-pipera zinedione)], recently approved as an oral anticancer drug for clinical use in Japan, was evaluated as a chemotherapeutic agent in combination with doxorubicin (DOX) in vitro and in vivo. Cytotoxicity was determined by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay, and murine Colon 26 and human KATO III adenocarcinoma cells were used. The combination index derived from these cytotoxic values indicated a synergistic interaction between DOX and MST-16 or its active metabolite, ICRF-154 (1,1'-ethylenedi-3,5-dioxopiperazine). A maximal tolerated dose of DOX administered to female BALB/c mice bearing a solid Colon 26 tumor resulted in severe body weight loss and diarrhea, but a limited tumor growth delay (1.8 days). However, when combined with an oral dose of MST-16, DOX-induced body weight loss and diarrhea were significantly ameliorated, and an additive tumor growth delay (8.7 days) was obtained. The LD50 of DOX administered i.p. to control female BALB/c mice increased more than 1.5-fold when combined with MST-16. Thus, MST-16 ameliorates DOX-induced acute toxicity while maintaining antitumor efficacy. These results indicate that MST-16 may be effective chemotherapy for cancer patients when combined with DOX. (+info)
Pharmacological properties of some xanthone derivatives.
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A series of aminoalkanolic derivatives of xanthone were examined in some experimental models of epilepsia, i.e., pilocarpine, aminophylline and pentetrazole-induced seizures. A final objective of this research was to examine the action of these compounds on the central nervous system, namely on spontaneous locomotor activity, amphetamine-induced hyperactivity and narcotic sleep induced by hexobarbital, as well as their influence on the gamma-aminobutyric acid (GABA) level and glutamic acid decarboxylase (GAD) activity in mice brain. The most interesting were the pharmacological results of (R)-2-N-methylamino-1-butanol derivative of 7-chloro-2-methylxanthone [Id], which displayed protective activity against the seizures induced by maximum electroshock and pentetrazole induced seizures; moreover, this compound had a relatively low toxicity and did not exhibit a neurotoxic effect. The influence on the locomotor activity as well as on the amphetamine-induced locomotor hyperactivity in mice was also seen for Id. Compound Id did not decrease the GABA level in mice brain. (+info)
Biological activities of lipopolysaccharides extracted from porcine vaccine strains.
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Lipopolysaccharides (LPSs) were purified from Actinobacillus pleuropneumoniae serotype 2, Bordetella bronchiseptica and Haemophilus parasuis serotype 5, which were used for vaccine production in Japan, by the phenol-water procedure. In SDS-PAGE analysis, A. pleuropneumoniae LPS, as well as Escherichia coli LPS, demonstrated a typical ladder profile of a smooth-type LPS. On the other hand, B. bronchiseptica and H. parasuis LPSs lacked the ladder profiles. It was found that the biological activity of these LPSs was comparable to those of E. coli LPS in terms of activation of the clotting enzyme of Limulus amoebocyte lysate, mitogenic activity of mouse spleen cells, stimulation of TNF-alpha and nitric oxide production, but IL-6 production could hardly be observed in any LPS. (+info)
Acute, multiple-dose, and genetic toxicology of AR177, an anti-HIV oligonucleotide.
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AR177 (Zintevir) is a 17-mer oligonucleotide that has been shown to have anti-HIV activity and to be a potent HIV-1 integrase inhibitor in vitro, and is among the first oligonucleotides to enter human clinical trials. Acute and multiple-dose intravenous toxicity studies were performed in mice, and genetic toxicity studies were performed in vitro and in vivo in order to determine the toxicity profile of AR177. The acute toxicity study in mice showed that AR177 had an LD50 of > or = 1.5 g/kg body weight. The multipledose toxicity study in mice showed that AR177 caused male-specific mortality, and changes in serum chemistry, hematology, and histology at doses of 250 and 600 mg/kg. Clinical chemistry findings included changes in liver function, and decreased erythrocyte values at 250 and 600 mg/kg. Histopathologic findings included vacuolization of reticuloendothelial cells in phagocytic cells in lymphoid tissue, liver, lungs, heart and uterus, and extramedullary hematopoeisis in the spleen. Renal toxicity was exhibited as nephropathy and tubular necrosis in the two high-dose groups of males. A no-effect dose was not established. AR177 did not exhibit genetic toxicity in any of three mutagenic assays. In combination with previously reported toxicity studies of AR177 in monkeys, this study showed that the toxicity of AR177 is species specific. (+info)
Subchronic physostigmine pretreatment in marmosets: absence of side effects and effectiveness against soman poisoning with negligible postintoxication incapacitation.
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Subchronic pretreatment with physostigmine (PHY) (0.0125 mg/kg/h) leading to a blood acetylcholinesterase inhibition of about 30% caused no side effects when applied to marmoset monkeys. This was evident on behavioral parameters and on EEG and cortical visual evoked response. Furthermore, this treatment regime, followed by atropine as postintoxication therapy, protected the marmosets against lethality after a 2 x LD50 dose of soman with negligible postintoxication incapacitation. These findings suggest that a symptom-free pretreatment with subchronic PHY could protect man sufficiently against severe soman intoxication. (+info)
Cutting edge: role of B lymphocytes in protective immunity against Salmonella typhimurium infection.
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Infection of mice with Salmonella typhimurium gives rise to a disease similar to human typhoid fever caused by S. typhi. Since S. typhimurium is a facultative intracellular bacterium, the requirement of B cells in the immune response against S. typhimurium is a longstanding matter of debate. By infecting mice on a susceptible background and deficient in B cells (Igmu-/- mice) with different strains of S. typhimurium, we could for the first time formally clarify the role of B cells in the response against S. typhimurium. Compared with Igmu+/+ mice, LD50 values in Igmu-/- mice were reduced during primary, and particularly secondary, oral infection with virulent S. typhimurium. After systemic infection, Igmu-/- mice cleared attenuated aroA- S. typhimurium, but vaccine-induced protection against systemic infection with virulent S. typhimurium involved both B cell-dependent and -independent effector mechanisms. Thus, B cell-mediated immunity plays a distinct role in control of S. typhimurium in susceptible mice. (+info)
A defect in a single allele of the Mlh1 gene causes dissociation of the killing and tumorigenic actions of an alkylating carcinogen in methyltransferase-deficient mice.
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Mice with mutations in both alleles of the Mgmt and the Mlh1 gene, the former encoding a DNA repair methyltransferase and the latter a protein functioning at an early step of mismatch repair, are as resistant to the killing action of alkylating agents as are wild-type mice. These mice yielded a large number of tumors when exposed to alkylating carcinogens, but this characteristic was subdued since they also showed a relatively high level of spontaneous tumorigenicity, as a consequence of the defect in mismatch repair. This complexity is now resolved by introducing the Mlh1(+/-) mutation, instead of Mlh1(-/-), in these methyltransferase-deficient mice. Mgmt(-/-) Mlh1(+/-) mice, with about half the amount of MLH1 protein as Mgmt(-/-) Mlh1(+/+) mice, were resistant to the killing action of N-methyl-N-nitrosourea (MNU), up to the level of 30 mg/kg body wt. Eight weeks after exposure to this dose of MNU, 40% of MNU-treated Mgmt(-/-) Mlh1(+/-) mice had thymic lymphomas and there were no tumors in those mice not given the treatment. It seems that the cellular content of MLH1 protein is a critical factor for determining if damaged cells enter into either one of the two pathways leading to mutation induction or to apototic cell death. Loss of Mlh1 expression was frequently observed in tumors of Mgmt(-/-) Mlh1(+/-) mice and this might be related to progression of the tumors. (+info)