Toxicity and Sublethal Effects of Autumn Crocus (Colchicum autumnale) Bulb Powder on Red Imported Fire Ants (Solenopsis invicta).

Autumn crocus (Colchicum autumnale L.) is a medicinal plant as it contains high concentrations of colchicine. In this study, we reported that the ground powder of autumn crocus bulb is highly toxic to invasive Solenopsis invicta Buren, commonly referred to as red imported fire ants (RIFAs). Ants fed with sugar water containing 5000 mg/L of bulb powder showed 54.67% mortality in three days compared to 45.33% mortality when fed with sugar water containing 50 mg/L of colchicine. Additionally, the effects of short-term feeding with sugar water containing 1 mg/L of colchicine and 100 mg/L of autumn crocus bulb powder were evaluated for RIFAs' colony weight, food consumption, and aggressiveness, i.e., aggregation, grasping ability, and walking speed. After 15 days of feeding, the cumulative colony weight loss reached 44.63% and 58.73% due to the sublethal concentrations of colchicine and autumn crocus bulb powder, respectively. The consumption of sugar water and mealworm (Tenebrio molitor L.) was substantially reduced. The aggregation rates decreased 48.67% and 34.67%, grasping rates were reduced to 38.67% and 16.67%, and walking speed decreased 1.13 cm/s and 0.67 cm/s as a result of the feeding of the two sublethal concentrations of colchicine and autumn crocus bulb powder, respectively. Our results for the first time show that powder derived from autumn crocus bulbs could potentially be a botanical pesticide for controlling RIFAs, and application of such a product could be ecologically benign due to its rapid biodegradation in the environment.

Colchicine Increases Ventricular Vulnerability in an Experimental Whole-Heart Model.

The traditional gout medication colchicine has been reported to effectively prevent atrial fibrillation recurrence after atrial fibrillation ablation or cardiac surgery in a few clinical trials. Severe adverse events have not yet been reported. The aim of the present study was to assess possible direct electrophysiological effects in an experimental whole-heart model. Ten rabbit hearts were isolated and Langendorff-perfused. Thereafter, colchicine was administered in two concentrations (1 and 3 µM). Eight endo- and epicardial monophasic action potentials and a 12-lead ECG showed a stable QT interval and action potential duration during colchicine infusion. Furthermore, there was no significant increase in dispersion of repolarization. However, colchicine induced a dose-dependent significant decrease of effective refractory period (ERP; 1 µM: -19 ms, 3 µM: -22 ms; p < 0.05). In the present study, acute infusion of colchicine in isolated rabbit hearts resulted in a reduction of ERP in the presence of a stable myocardial repolarization. This led to a significantly elevated inducibility of ventricular fibrillation. In 4 of 10 hearts, incessant ventricular fibrillation occurred. These results suggest a pro-arrhythmic or toxic effect of colchicine and underline that further clinical studies on potential adverse effects should be conducted before the drug can be recommended for routine use after atrial fibrillation ablation.

Mutagenic influences of colchicine on phenological and molecular diversity of Calendula officinalis L.

Six different colchicine concentrations: 0, 400, 800, 1200, 1600, and 2000 ppm, in combination with four soaking time treatments (1, 2, 3, and 4 h), were selected to assess the effects on germination, vegetative growth, and flower yield components in calendula plants. The molecular diversity among the treatments was assessed using ten SRAP marker combinations. Seed soaking in colchicine significantly enhanced both the fresh and the dry shoot and root masses, flowering date, number of flowers per plant, and flower diameter. At 1200-ppm colchicine combined with a 4-h soaking time, a superior effect on seed germination was observed, whereas 800 ppm for 4 h produced the highest number of flowers and the largest flower diameter. The earliest flowering time was found at 800 ppm combined with a short soaking time (1 h), while the 4-h soaking time with 800 ppm, is recommended for growing calendula outdoors, since it enhances flower development. At the molecular level, 752 fragments were successfully amplified using the SRAP primers, with 280 genetic loci found throughout the calendula genome. The polymorphism percentage ranged from 79 to 100% and the polymorphic information content (PIC) values ranged between 0.85 and 0.97. The high number of detected loci and PIC values suggests a great power of SRAP markers in detecting mutant molecular diversity. Our results clearly show the existence of genetic variation among colchicine treated calendula plants and the clustering of the studied mutants was concordant with the colchicine concentration used.

High fat diet impact on Fos expression in ovariectomized female C57BL/6 mice: effect of colchicine and response of different neuronal phenotypes.

OBJECTIVES: Activity of neuropeptide Y (NPY), tyrosine hydroxylase (TH), corticoliberine (CRH), and oxytocin (OXY) producing cells was investigated in the ovariectomized (OVX) female C57BL/6 mice kept on the high fat diet for 16 weeks and their response to colchicine stress in selected brain areas, including the hypothalamic paraventricular (PVN), dorsomedial (DMN) and arcuate (ARC) nuclei, A1/C1 (in the ventrolateral medulla), and A2/C2 (in the nucleus of the solitarii tract, NTS) catecholaminergic cell groups. METHODS: The OVX female C57BL/6 mice kept on high fat diet were sacrificed by transcardial perfusion with fixative 48 h after intracerebroventricular injection of colchicine (18 µg mice). Dual Fos/neuropeptide immunohistochemistry was employed to investigate Fos/neuropeptide colocalizations. RESULTS: In the OVX saline-treated mice (sham control) with standard diet (St diet), no immunopositive CRH and NPY neurons were identified in the PVN and weak Fos immunostainig was visible in TH neurons in the DMN and ARC nuclei. Colchicine treatment in the OVX mice with St diet increased the number of CRH and OXY immunopositive neurons in the PVN as well as the number of NPY and TH neurons in DMN and ARC nuclei and NPY neurons in the middle NTS (mNTS) and A1/C1 cell group. Prolonged HF diet in OVX sham control mice moderately increased the number of Fos/TH neurons in the mNTS and commissural NTS (cNTS) in comparison with St diet mice. However, prolonged HF diet in OVX colchicines-treated mice reduced the number of Fos/NPY neurons in the anterior NTS (aNTS) and A1/C1 cell group in comparison with colchicines-treated animals with St diet as well as Fos-TH neurons in the mNTS and cNTS in comparison with saline-treated animals with HF diet. CONCLUSION: The data of this pilot study indicate that prolonged high fat diet might: 1) represent itself a light/moderate stimulus for activation of TH neurons in the NTS and A1/C1 cell group as well as NPY neurons in the A1/C1 cell group and 2) interfere with colchicines-induced and time-delayed Fos activation in the NPY and TH neurons in both the above mentioned brain nuclei.

Protective effect of quercetin against ICV colchicine-induced cognitive dysfunctions and oxidative damage in rats.

Intracerebroventricular (i.c.v.) administration of colchicine, a microtubule-disrupting agent, causes cognitive dysfunction and oxidative stress. The present study was designed to investigate the protective effects of quercetin against colchicine-induced memory impairment and oxidative damage in rats. An i.c.v. cannula was implanted in the lateral ventricle of male Wistar rats. Colchicine was administered at dose of 15 microg/rat. Morris water maze and plus-maze performance tests were used to assess memory tasks. Various biochemical parameters such as lipid peroxidation, reduced glutathione, nitrite level, acetylcholinesterase and proteins were also assessed. Central administration of colchicine (15 microg/rat) showed poor retention of memory. Chronic treatment with quercetin (20 and 40 mg/kg, p.o.) twice daily for a period of 25 days beginning 4 days prior to colchicine injection significantly improved the colchicine-induced cognitive impairment. Biochemical analysis revealed that i.c.v. colchicine injection significantly increased lipid peroxidation, nitrite and depleted reduced glutathione activity in the brains of rats. Chronic administration of quercetin significantly attenuated elevated lipid peroxidation and restored the depleted reduced glutathione, acetylcholinesterase activity and nitrite activity. The results of the present study clearly indicated that quercetin has a neuroprotective effect against colchicine-induced cognitive dysfunctions and oxidative damage. This article was published online on 3 November 2008. An error was subsequently identified. This notice is included in the online and print version to indicate that both have been corrected.

Comparison of enterotoxicity between autumn crocus (Colchicum autumnale L.) and colchicine in the guinea pig and mouse : enterotoxicity in the guinea pig differs from that in the mouse.

Autumn crocus poisoning of cattle is characterized by severe diarrhea caused by alkaloid colchicine. Previously, we examined pathologically this poisoning in cattle and reported that enterotoxic lesions were closely associated with apoptosis. To examine enterotoxicity of autumn crocus more precisely, a reproductive study was performed using guinea pigs and mice, and pathological findings associated with autumn crocus poisoning were compared with those of colchicine. Each group of guinea pigs given the bulb of autumn crocus or colchicine exhibited severe diarrhea. Histopathological findings in intoxicated guinea pigs were entirely consistent with those in the autumn crocus-poisoned cattle. In contrast, each group of mice administered with the bulb or colchicine did not develop diarrhea. Our results confirmed that the toxicity of autumn crocus bulb is attributable to the toxicity of ingredient colchicine, and revealed that the guinea pig has high reproducibility of autumn crocus poisoning in cattle and colchicine poisoning in humans. It has been reported that the physiological mechanism of the apoptotic process for eliminating the enterocytes in the mouse and rat differs from that of the guinea pig, monkey, cattle and horse. Taking the observation that the former animals do not develop diarrhea, whereas the latter animals do so in the autumn crocus or colchicine poisoning into consideration, it would seem that the species-difference in enterotoxicity of autumn crocus may be closely associated with the physiological mechanism of eliminating the effete enterocytes.

The effect of hyperthermia on micronucleus induction by mutagens in mice.

We administered mitomycin C (0.5 mg/kg) intraperitoneally to hyperthermic-treated mice and examined the effect of hyperthermia on micronucleus induction. Hyperthermia enhanced micronucleus induction. The timing of chemical administration relative to the start of hyperthermic treatment (37 degrees C ambient temperature) influenced micronucleus frequency, and the effect was greatest 2 h after the start of hyperthermic treatment. But the hyperthermic treatment did not change the time course of micronucleus induction. In addition, we investigated the effect of hyperthermia on micronucleus induction by chemicals with different modes of action, i.e., alkylating agents (mitomycin C at 0.1-0.5 mg/kg, cyclophosphamide at 1.25-10 mg/kg), a spindle poison (colchicine at 0.05-1.0 mg/kg), and an antimetabolite (5-fluorouracil at 2.5-50 mg/kg). Hyperthermia enhanced only the clastogenicity of alkylating agents.

Expression of nitric oxide synthase in hypothalamic nuclei following axonal injury or colchicine treatment.

Nitric oxide (NO) has recently gained much attention due to its apparently double-edged role in neuronal injury. This study was aimed at elucidating neuronal nitric oxide synthase (nNOS) expression in the brain after two types of injury, namely axonal transection and colchicine treatment. The neurosecretory hypothalamo-pituitary pathway served as a model for the reaction of central neurons to these two types of injury. Axonal transection, i.e., pituitary stalk section, resulted in a qualitative increase in NOS content in the supraoptic and paraventricular nuclei. In these nuclei, there was also an increase in the number of NOS-expressing neurons after the operation. Surprisingly, in the periventricular nucleus, a strong decrease in the number of NOS-positive magnocellular neurons was observed in the anterior part of the nucleus. Intracerebroventricular injection of colchicine resulted in an increase in the cell count in the paraventricular nucleus, while the other nuclei remained unchanged. Our results suggest that axonal injury results in an increase in nNOS expression in the major neurosecretory nuclei, while the periventricular nucleus shows the opposite reaction. Colchicine treatment has an effect similar to that of axotomy in the major neurosecretory nuclei, suggesting that an increase in NOS expression may be induced by interrupted axonal transport. In the periventricular nucleus, the decrease in the number of NOS-containing neurons suggests differences among hypothalamic NOS-containing neuron groups in response to neuronal injury.

Alterations in Ca2+ transport ATPase and P-glycoprotein expression can mediate resistance to thapsigargin.

Resistance to the intracellular Ca2+ pump inhibitor thapsigargin (TG) is associated with overexpression of both Ca2+ transport ATPase and the multidrug resistance (mdr) transporter P-glycoprotein (pgp). This is supported by increased resistance to TG following transfection of a functional pgp1 cDNA, and reversal of TG resistance with known inhibitors of pgp function. However, pgp is unlikely to represent the only mechanism of resistance to TG. Cell lines selected for high levels of resistance to TG (250-fold) show only a 3.7-fold increase in pgp expression and a 2-fold increase in cross-resistance to other drugs of the mdr class. Overexpression of endogenous Ca2+ transport ATPase may represent a second mechanism of resistance to TG. Increased Ca2+ ATPase expression (3-fold) is seen in cells made resistant to TG, and TG resistance increases with the transfection of a specific Ca2+ ATPase cDNA into DC-3F cells. If these transfectants are then made resistant to TG, both the endogenous Ca2+ ATPase and the exogenously transfected Ca2+ ATPase become overexpressed. These studies suggest that while TG may be a substrate for pgp, acquired resistance to TG can involve alterations in both pgp and Ca2+ ATPase expression. Additional, as yet unidentified, mechanisms of resistance may be involved in resistance to TG.

[Antimitotic compounds as modifiers of the radiation lesion of cultured cells]. / Antimitoticheskie soedineniia kak modifikatory luchevogo porazheniia kul'tiviruemykh kletok.

The features of antimitotic substances as radioprotectors were studied. In vitro experiments have demonstrated that taxol revealed radioprotective features concerning the process of polymerization of irradiated microtubules. These results were the basis for the use of taxol and some other substances with high affinity for cytoskeleton proteins as potential radiomodificators in vivo. Experiments with cultivated fibroblasts revealed that colchicine significantly enhances radioactive injuries of cells while taxol and phalloidin manifest their radioprotective features.

Planarians as a model system for in vitro teratogenesis studies.

Free-living flatworms such as planarians are inexpensive to culture, maintain, and use for toxicologic testing in the laboratory. A considerable number of basic studies by ourselves and others indicate that, in simplified miniature, they possess many features of biochemical and physiologic organization similar to higher animals such as mammals. These include a well-developed brain with a varied behavioral repertoire including complex maneuvers of prey capture and learning, with a number of the same neurotransmitters used in mammalian brain. They are sensitive to a variety of the same toxicants. Undifferentiated totipotent stem cells, i.e., "neoblasts," which are capable of mitosis and differentiation into any of the various specialized cell types, permit regeneration of complete planarians from fragments. They also provide new cells to replace those lost in the normal cellular turnover of nonregenerating planarians. Both regeneration of surgical fragments and aberrant remodeling of whole planarians model important features of embyrogenesis and are potentially useful for assaying teratogens. Results are described from studies in which various representative teratogenic toxicants were tested in these two different planarian paradigms. The potential of planarian cephalic regeneration for behavioral teratogenesis investigations is also indicated.

The effects of colchicine and vinblastine on memory in chicks.

Colchicine, injected bilaterally into the forebrain of day-old chicks at times before and after one-trial avoidance learning, produced transient amnesia for one to three hours after learning, that could not be accounted for as a perceptual or attentional defect. The amnesia was dose dependent and was produced only when injections occurred within a limited period before and after learning. No amnesia occurred when injections were given 120 min before or 60 min later than the learning trial, nor at times prior to the retrieval test. During the amnesic period, new learning could occur and be retrieved 15 min later. The amnesia could be overcome by retention-testing or by a new, related, learning experience before or up to 30 min after onset of amnesia. Control birds injected with saline or lumicolchicine, a biologically inactive derivative of colchicine, showed normal retention. Vinblastine sulphate, which also interrupts microtubular networks and hence axonal flow, had no amnesic properties. Colchicine injections had no effect on the levels of acetylcholinesterase, choline acetyltransferase, glutamic acid decarboxylase, and muscarinic acetylcholine receptors in the whole forebrain or in forebrain synaptosomes during the amnesic period. Nor did colchicine injections affect amino acid uptake and protein or glycoprotein synthesis before or during the amnesic period, although there was 10-20% inhibition of protein synthesis 5 h after injection. Thus over the amnesic period, there was no evidence of gross perturbation of brain function. Electron microscopy showed microtubules intact within 1 mm of the injection site 2.5 after injection. Oedema was found at this time in chicks injected with a high dose (100 micrograms) shown to disturb behaviour grossly, but not with a low dose (5 micrograms) which caused amnesia. Transient amnesia for one-trial avoidance learning is most probably caused by secondary effects of colchicine on nerve cell function. We suggest that the amnesic episode represents destruction of one of the stages of a multiple independent parallel process of memory consolidation.

The use of neurotoxins to characterize the rates and subcellular distributions of axonally transported dopamine-beta-hydroxylase, tyrosine hydroxylase and norepinephrine in the rat brain.

The effect of 6-hydroxydopamine (6-OHDA), colchicine and cytochalasin B on the transport and subcellular distribution of proteins, tyrosine hydroxylase (TH), dopamine-beta-hydroxylase (DBH) and norepinephrine (NE) were studied in the noradrenergic neurons of the rat locus coeruleus (LC). Four waves of transported 3H-labeled proteins and glycoproteins, defined by previous studies, as well as hypothalamic levels of TH, DBH and NE, were examined after injection of each neurotoxin into the ascending dorsal noradrenergic bundle. Blockade of subcellular components of TH, DBH and NE was compared to their endogenous hypothalamic distributions. 6-Hydroxydopamine variably blocked transport of all 4 waves of 3H protein and bilateral injections decreased hypothalamic levels of TH, DBH and NE by 58.2, 56.9 and 52.2% of controls, respectively. Cytochalasin B blocked transport of protein waves I (72--192 mn/day) and III (13--20 mm/day) and decreased hypothalamic levels of TH to 60.1% of control after bilateral injections. Colchicine blocked transport of waves I, II (24--48 mm/day) and V (1.4--2.9 mm/day) and blocked [3H]NE transport, while decreasing hypothalamic levels of DBH and NE to 56.6 and 69.3% of control after bilateral injections. Colchicine and 6-OHDA, but not cytochalasin B, caused a backup of DBH immunofluorescence proximal to the injection site. DBH and NE appeared to be transported primarily in particulate form, while TH transport was predominantly soluble in distribution. None of the toxins differentially affected the transport of one particular subcellular component of TH, DBH or NE. Based on the differential blocking effects of these toxins, DBH and NE appeared to be associated with wave II, and TH with wave III, travelling at 24--48 mm/day and 13--20 mm/day respectively.

The enhancement by dietary zinc deficiency of the susceptibility of the rat duodenum to colchicine.

1. The incidence of colchicine-induced lesions in the germinal epithelium oof the rat duodenum was studied in young rats in an early stage of zinc deficiency and in their pair-fed controls. At both dose levels of colchicine used, a marked increase in the amount of cell damage was observed in the duodenum of Zn-deficient rats as compared with the pair-fed, control (Zn-supplemented) rats. 2. No statistical interaction between Zn and colchicine was demonstrable, and no lesions were found in the duodenum of animals that had not been treated with colchicine. 3. The results are discussed in relation to the effects of Zn deficiency in animals and the possible involvement of Zn in the maintenance of the integrity of microtubular structures.