High-Quality Draft Genome Sequence of Francisella tularensis subsp. holarctica Strain OR96-0246.

The bacterial pathogen Francisella tularensis was recently renewed as a tier-one select agent. F. tularensis subsp. tularensis (type A) and holarctica (type B) are of clinical relevance. Here, we report the complete genome of a virulent F. tularensis type B strain and describe its usefulness in comparative genomics.

Mapping the domains of the interaction of the vitamin D receptor and steroid receptor coactivator-1.

The vitamin D receptor (VDR) binds to the vitamin D response element (VDRE) and mediates the effects of the biologically active form of vitamin D, 1,25-dihydroxyvitamin D3 [1,25-(OH)2D3], on gene expression. The VDR binds to the VDRE as a heterodimeric complex with retinoid X receptor. In the present study, we have used a yeast two-hybrid system to clone complementary DNA that codes for VDR-interacting protein(s). We found that the human steroid receptor coactivator-1 (SRC-1) interacts with the VDR in a ligand-dependent manner, as demonstrated by beta-galactosidase production. The interaction of the VDR and the SRC-1 takes place at physiological concentrations of 1,25(OH)2D3. A 48.2-fold stimulation of beta-galactosidase activity was observed in the presence of 10(-10) M 1,25-(OH)2D3. In addition, a direct interaction between the ligand-activated glutathione-S-transferase-VDR and 35S-labeled SRC-1 was observed in vitro. Deletion-mutation analysis of the VDR established that the ligand-dependent activation domain (AF-2) of the VDR is required for the interaction with SRC-1. One deletion mutant, pGVDR-(1-418), bound the ligand but failed to interact with the SRC-1, whereas another deletion mutant, pGVDR-(1-423), bound the ligand and interacted with the SRC-1. We demonstrated that all the deletion mutants were expressed as analyzed by a Gal4 DNA-binding domain antibody. Deletion mutation analysis of the SRC-1 demonstrated that 27 amino acids (DPCNTNPTPMTKATPEEIKLEAQSQFT) of the SRC-1 are essential for interaction with the AF-2 motif of the VDR.

Effect of chelate treatments on kidney, bone and brain lead levels of lead-intoxicated mice.

The effects of chelating agent treatment with meso-2,3-dimercaptosuccinic acid (DMSA), Na2CaEDTA, Na2ZnEDTA, and Na3ZnDTPA on the organ lead levels of lead-loaded mice have been determined. At 1 mmol/kg/day i.p., all caused reductions in the lead levels of the kidney after four injections, but only Na2CaEDTA produced a significant reduction in brain lead. All chelating agents caused significant reductions in kidney and brain lead levels when administered at a daily dose of 1 mmol/kg/day for eight days, but only DMSA reduced the bone lead level. In animals given 50 mg Pb/kg or 100 mg Pb/kg, the administration of Na2CaEDTA or DMSA at 1 mmol/kg/day x 8 produced significant reductions in kidney, bone and brain lead levels, but DMSA produced greater reductions of bone lead in both groups and of kidney lead in the group given 100 mg Pb/kg. An examination of published data describing the effect of chelating agent treatment on brain lead levels indicates that DMSA produces a reduction in brain lead levels under all conditions examined to date.

Widespread colonization of personnel at a Veterans Affairs medical center by methicillin-resistant, coagulase-negative Staphylococcus.

A serial prospective survey of nasal colonization of hospital personnel by methicillin-resistant coagulase-negative staphylococci (MRCNS) was conducted at a Veterans Affairs medical center on three occasions over a 16-month period. The epidemiological typing systems used to assess relatedness included antimicrobial susceptibility profiles; biotyping; phage typing; plasmid profiles; restriction fragment length polymorphism (RFLP) analysis with ribosomal RNA; and plasmid hybridization with a 1.68-MD plasmid as the DNA probe. Forty-three percent of all personnel and 62% of all nurses were colonized with MRCNS. Nurses on the wards (72%) and in the intensive care unit (73%) were significantly more likely to be colonized with MRCNS than nurses who had less contact with patients or those who worked in the operating room. The molecular epidemiological typing systems indicated some degree of relatedness among the strains. Specifically, riboprobe analysis revealed a Dice coefficient of > 90%. However, each typing system detected dissimilarity among strains. Further studies are needed to determine the role that such human reservoirs of MRCNS serve in horizontal transmission to and subsequent infection of hospitalized patients.

Increased frequency of large R-plasmids in Klebsiella pneumoniae colonizing patients with spinal cord injury.

From 1978 to 1988 strains of gentamicin-susceptible (Gms) and gentamicin-resistant (Gmr) Klebsiella pneumoniae were saved from annual surveillance cultures of the perineal region of patients with spinal cord injury (SCI). Of 38 strains selected for further study (24 Gms and 14 Gmr), there were 23 different serotypes (two nontypable). Fourteen Gms as well as 14 Gmr strains displayed no common plasmid patterns, but all contained a large plasmid of 168-208 kb. Among the 14 Gmr strains, nine had large conjugative plasmids of approximately the same size (166-193 kb), which conferred to a susceptible Escherichia coli host an identical resistance pattern: ampicillin, chloramphenicol, gentamicin, piperacillin, trimethoprim-sulfamethoxazole, tetracycline, and tobramycin. Of the nine transconjugants, eight contained a single plasmid. One transconjugant contained a 168- and 80-kb plasmid. Restriction endonuclease digestion patterns of the R-plasmids revealed minimal similarity. We conclude that, during a 10-year period, different large R-plasmids have spread among multiple serotypes of K. pneumoniae in spinal cord injury (SCI) patients in one rehabilitation hospital. We hypothesize that other genes located on large, R-, and non-R-plasmids may confer an additional advantage for colonization by K. pneumoniae in SCI patients.

Mobilization of lead in mice by administration of monoalkyl esters of meso-2,3-dimercaptosuccinic acid.

The following six monoalkyl esters of meso-2,3-dimercaptosuccinic acid (DMSA) were synthesized and evaluated for relative activities in mobilizing lead from kidneys and brains of lead-bearing mice: n-propyl (Mn-PDMS), i-propyl (Mi-PDMS), n-butyl (Mn-BDMS), i-butyl (Mi-BDMS), n-amyl (Mn-ADMS) and i-amyl meso-2,3-dimercaptosuccinate (Mi-ADMS). DMSA was used as a positive control. When each was administered intraperitoneally (i.p.) as a single dose of 2.0 mmol/kg, DMSA lowered the kidney lead concentration 52%, while the monoesters effected reductions of 54-75%. Mn-ADMS was toxic at this dose. DMSA lowered the brain lead level 20% when given as a single dose, while the monoesters conferred reductions of 64-87%. When given as 5 daily i.p. injections at 0.5 mmol/kg, DMSA reduced the kidney lead concentration 45%, while the monoesters caused reductions of 56-73%. DMSA lowered the brain lead concentration 35% on the 5-day treatment regimen, while the monoesters evoked reductions of 59-75%. Mi-ADMS was equally effective when given orally or i.p. The i.p. LD50 value of this analog in mice is 3.0 mmol/kg, a value which lies between the reported LD50 doses of DMSA (16.0 mmol/kg) and dimercaprol (1.1 mmol/kg). It is suggested that the ability of these monoesters to cross cell membranes may account for their superiority to DMSA in mobilizing brain lead in this animal model.

Relatedness of strains of methicillin-resistant coagulase-negative Staphylococcus colonizing hospital personnel and producing bacteremias in a neonatal intensive care unit.

The emergence of methicillin-resistant coagulase-negative Staphylococcus as a major bacterial pathogen in neonatal intensive care units has stimulated interest in the epidemiology of spread of the organism. During a 12-month "epidemic" of bacteremias with methicillin-resistant coagulase-negative Staphylococcus we compared the characteristics of bacteremic and personnel nasally-carried strains by traditional and biomolecular methods. Sixty-two percent of neonatal intensive care unit nurses were colonized with methicillin-resistant coagulase-negative Staphylococcus with similar speciation to bacteremic strains. Inspection of plasmid profiles revealed a moderate degree of similarity between bacteremic and colonizing strains although genomic DNA restriction patterns showed diversity. Ribotype patterns were highly conserved (90%) in personnel strains. A 2.6-kilobase plasmid DNA probe hybridized to similarly sized plasmids and larger plasmids in one-half of the strains. We hypothesize that related methicillin-resistant strains may be transferred among personnel and neonates in the neonatal intensive care unit. Epidemiologic studies of coagulase-negative staphylococci should consider multiple molecular techniques to relate strains.

Cadmium mobilization in vivo by intraperitoneal or oral administration of monoalkyl esters of meso-2,3-dimercaptosuccinic acid in the mouse.

The relative activities of a series of nine monoalkyl esters of meso-2,3-dimercaptosuccinic acid have been examined as agents for the mobilization of cadmium from mice one week after intraperitoneal administration of cadmium chloride. Eight of these are newly synthetized; all are of the type ROOCCH(SH)CH(SH)COOH, were R = Me, MMDMS; R = C2H5, MEDMS; R = (CH2)2CH3, Mn-PDMS; R = CHMe2, Mi-PDMS; R = (CH2)3CH3, Mn-BDMS; R = CH2CHMe2, Mi-BDMS; R = (CH2)4CH3, Mn-ADMS; R = (CH2)2CHMe2, Mi-ADMS; and R = (CH2)5CH3, Mn-HDMS. All are soluble in dilute sodium bicarbonate solutions and can be administered as aqueous solutions. Cadmium mobilization data were collected on each compound using mice previously loaded with cadmium; the monoesters were administered at a level of 0.40 mmol/kg intraperitoneally daily for five days. Data on whole body cadmium mobilization indicated that the monoester with the isoamyl group was the most effective under the conditions used. The relative whole body cadmium mobilization increased with the number of carbon atoms in the alkyl group of the monoester up to C5 and then decreased for the C6 compound. Cadmium removal from the kidneys and liver was also measured. It was found that the monoisoamyl ester was the most effective in removing cadmium from both the liver and the kidneys. The monoisoamyl ester also proved to be very effective in mobilizing cadmium from both the liver and the kidneys when given orally. This is the first compound which is reported capable of mobilizing cadmium in vivo from aged deposits after oral administration.

Structure-activity relationships for in vivo cadmium mobilization by dithiocarbamates derived from lactose and maltotriose.

The relationships between chemical structure and the relative ability to mobilize cadmium in vivo from its aged renal and hepatic deposits have been examined in a series of newly synthesized dithiocarbamates derived from lactose and maltotriose. The results suggest that, in the selection of hydrophobic groups to counter the hydrophilicity contributed by the disaccharides, aromatic groups provide compounds which have a superior efficacy to compounds containing aliphatic groups. The compounds derived from trisaccharides are much less effective than those derived from disaccharides, suggesting that there is a practical size limit to the hydrophilic groups which can be used in the structures of such compounds. With both di- and trisaccharides, aliphatic derivatives with straight chains containing more than eight carbon atoms tend to be less effective than the ones with seven or fewer carbon atoms in the alkyl chain. The three compounds prepared from lactose which contain a benzyl or a methyl-substituted benzyl group are the most effective compounds reported to date for the reduction of whole-body cadmium levels.

Structure-activity relationships for intracellular cadmium mobilization by N-alkyl-4-O-(beta-D-galactopyranosyl)-D-glucamine-N-carbodithioates+ ++.

An examination of a group of dithiocarbamate chelating agents derived from various alkylamines and lactose reveals that the relative potencies in the mobilization of intracellular cadmium from renal and hepatic deposits in mice are highly dependent upon the size and nature of the alkyl groups. For those compounds containing straight-chain alkyl groups, the potency drops off as the number of carbon atoms is increased beyond seven. Branched-chain alkyl groups are more effective in promoting the removal of cadmium than straight-chain alkyl groups with the same number of carbon atoms. The fact that these compounds are effective in the mobilization of intracellular cadmium deposits suggests that the size and shape of the alkyl group are important in the determination of the facility with which the compound can pass through cellular membranes. Straight-chain derivatives with 10 or more carbon atoms were more toxic than those with nine or fewer carbon atoms. Of the new compounds, four (the n-hexyl, n-heptyl, n-octyl, and 2-ethylhexyl derivatives) are more effective than the corresponding benzyl derivative in inducing a reduction of hepatic cadmium levels from animals given cadmium at least 1 week previously. The results obtained indicate that modest modifications in the groups on the basic dithiocarbamate structure can produce agents of significantly enhanced effectiveness for the removal of cadmium from its hepatic deposits.

Chirality, charge, and chain branching effects on dithiocarbamate-induced mobilization of cadmium from intracellular deposits in mice.

The effects of three major structural features on the intracellular cadmium mobilizing potency of dithiocarbamates have been examined. These features, the chirality of the groups, the total ionic charge of the chelating agent, and the extent of chain branching, would be expected to affect the pharmacological properties of these chelating agents but to have little effect on the stability constants of the cadmium complexes involved. A total of 25 compounds (including 21 new ones) was prepared and used in animal studies designed to evaluate these effects. These included a series of amphipathic dithiocarbamates of the general type R1N(R2)CS2-Na+, where R1 is a relatively nonpolar organic group and R2 is derived from a reducing hexose. All of the factors examined influenced the potency of dithiocarbamates in the mobilization of cadmium from intracellular deposits. The compounds with R2 = galactose or mannose and R1 = benzyl were both more effective than the corresponding glucose derivatives in inducing the removal of cadmium from the liver and the whole body. Increases in the net negative charge of the chelating agent uniformly decreased the observed potency in the mobilization of hepatic and renal cadmium deposits. The replacement of a normal alkyl group by a branched-chain group of the same molecular weight also led to an increase in potency for the two pairs of compounds examined. Dithiocarbamates which are not amphipathic because of the presence of similar polar substituents for both R1 and R2, such as sodium diarabitylamine carbodithioate, were relatively ineffective as agents for the mobilization of intracellular cadmium.(ABSTRACT TRUNCATED AT 250 WORDS)

The mobilization of intracellular cadmium by alkoxyethyl esters of meso-2,3-dimercaptosuccinic acid.

The cadmium mobilizing properties of two newly synthesized esters of meso-2,3-dimercaptosuccinic acid in mice have been examined. They are: di(2'-methoxyethyl) meso-2,3-dimercaptosuccinate ([-CH(SH)COOCH2CH2OR]2, R = CH3; MEDMS), and di(2'-ethoxyethyl) meso-2,3-dimercaptosuccinate ([-CH(SH)COOCH2CH2OR]2, R = CH2CH3; EEDMS), conveniently prepared from dimercaptosuccinate acid with 2-methoxyethanol and 2-ethoxyethanol, respectively. Mobilization studies in mice of aged in vivo cadmium deposits using five ip injections of 0.40 mmol/kg of each chelator in peanut oil clearly indicate that both compounds, MEDMS and EEDMS, are significantly superior to 2,3-dimercaptopropan-1-ol (BAL) in depleting the whole body burden of cadmium. The reductions caused by MEDMS and EEDMS were approximately 20 and 26%, respectively, whereas under similar dosage regimens BAL effected about only a 12% reduction. The esters were neither equal nor superior to BAL for the reduction of renal cadmium levels, MEDMS being the least effective. For the mobilization of hepatic cadmium deposits, both were quite promising (MEDMS, 20%; EEDMS, 34% reduction) compared to BAL (only 2% reduction). There was no accumulation of cadmium with either MEDMS or EEDMS in any of the other organs examined--spleen, testes, pancreas, and particularly the brain. These compounds enhance the fecal excretion of cadmium by a factor of 25- to 40-fold but have very little effect on the urinary excretion of this element. The present study reveals that the order of overall efficacy is EEDMS greater than MEDMS greater than BAL, considering the liver and whole body burdens of cadmium, but BAL greater than EEDMS greater than MEDMS in terms of the efficacy in reducing cadmium levels in the kidneys.

Structural influences on intracellular cadmium mobilization by dithiols.

An examination of 5 dithiols, N-(2,3-dimercaptopropyl)phthalamidic acid (DMPA), benzene-1,2-dithiol (BDT), toluene-3,4-dithiol (TDT), alpha, alpha'-dimercapto-o-xylene (DOX), and 4,5-dimethyl-alpha,alpha'-dimercapto-o-xylene (DDOX), reveals that these compounds are all inferior to previously reported compounds as agents for the in vivo mobilization of cadmium from its intracellular sites, although all possess sulfhydryl groups capable of reacting with cadmium. The results demonstrate the considerable importance of those parts of the molecule which do not participate directly in the formation of chelate rings in the determination of the ultimate behavior of such compounds in vivo.

Glutathione status, glutathione monoisopropyl ester, and cadmium metabolism in mice.

Glutathione monoisopropyl ester (GSHMI) was synthesized for an investigation of its interactions with cadmium (Cd) in mice. When administered ip prior to the injection of lethal doses of Cd given by the ip or sc route, it did not reduce Cd-induced mortality. When given to Cd-bearing mice it did not promote mobilization of Cd from metallothionein-bound stores in liver, kidneys, spleen, testes, pancreas, or brain. When given at a dose of 6.0 mmol/kg 2 hr prior to administration of Cd, GSHMI enhanced Cd accumulation in kidneys, liver, spleen, and testes, and reduced the accumulation of the metal in brain. When 4.0 mmol/kg of the ester were given at various intervals prior to Cd administration, the major actions observed were substantial increases in Cd concentrations ultimately attained in kidneys and liver at most time intervals examined. Reductions of Cd accumulation were found only in liver and pancreas, and only when GSHMI treatment preceded Cd administration by 30 min. Reduction of endogenous GSH levels by administration of L-buthionine-(S,R)-sulfoximine (BSO) led to moderate increases in Cd accumulation in kidneys and pancreas; Cd deposition was reduced in spleen, testes, heart, lungs, and brain. BSO pretreatment led to only slight or no change in liver Cd accumulation. Sephadex G-75 gel filtration chromatography revealed that GSHMI pretreatment led to only a moderate and transient increase in hepatic Cd-metallothionein content when measured 2 hr after Cd administration; when assessed 1 hr and 3 hr post-Cd, elution profiles of extracts from livers of GSHMI-pretreated mice were indistinguishable from control profiles. We conclude that GSHMI is not an effective agent for the control of Cd toxicity.

Selective removal of cadmium from aged hepatic and renal deposits: N-substituted talooctamine dithiocarbamates as cadmium mobilizing agents.

The preparation and examination of three dithiocarbamates derived from N-substituted D-gluco-L-talooctamine reveals that the 4-methoxybenzyl derivative (MeOBGD) is superior to any previously prepared dithiocarbamates as an agent for the mobilization of aged intracellular hepatic cadmium deposits from mice. All of these compounds are also quite effective in reducing whole body burdens of cadmium. The use of these compounds does not result in any increase in the cadmium content of the brain. The selection of these chelating agents for synthesis was suggested by an analysis of the log dose-response curves for the mobilization of renal cadmium by previously studied dithiocarbamates. This revealed that the slope of the percentage renal cadmium mobilized vs the log dosage curve is determined to a considerable extent by the sum of the Hansch pi parameters for the substituents, while the intercept is largely determined by the molecular weight of the compound. The implication of such a correlation is that the ability of a chelating agent to remove cadmium from its aged deposits is determined to some extent by its molecular weight, provided the polarity of the overall molecule is appropriate.

Schedule dependency of a cadmium-complexing dithiocarbamate analog in mice.

A number of dosing regimens was assessed to determine the optimum schedule of administration of N-(4-methoxybenzyl)-N-dithiocarboxy-D-glucamine (MeOBDCG) in depleting whole-body, renal and hepatic levels of metallothionein-bound cadmium (Cd) in mice. A comparison of 4.0 mmol/kg given as a single injection versus 0.5 mmol/kg given as 8 hourly injections revealed the latter regimen to be superior in reducing renal Cd levels, but less effective than a bolus dose in lowering hepatic Cd concentrations. Administration of 1.33 mmol/kg for 3 consecutive days or 0.8 mmol/kg for 5 days effected a more extensive depletion of renal Cd concentrations than did a single injection of 4.0 mmol/kg. Three injections of 1.0 mmol/kg given at 4- to 7-day intervals were generally more effective in reducing renal Cd concentrations than were 3 consecutive daily injections in mice which had low or moderately high total Cd burdens. The lowest effective dose of MeOBDCG in lowering whole-body, liver and kidney Cd levels when given repetitively was about 0.2 mmol/kg. While schedule variations did not alter appreciably the whole-body Cd reductions at any given total dose of MeOBDCG, repetitive dosing schedules in which injections were given at intervals of several days rather than daily were typically more effective in reducing renal Cd levels. Based upon consideration of pharmacological response as influenced by body surface area, it was calculated that doses of MeOBDCG of the order of 2.0 g/d may be effective in reducing renal Cd levels in individuals with chronic renal dysfunction secondary to chronic Cd intoxication.

N,N-disubstituted dithiocarbamates as cadmium antagonists: N-(4-methoxybenzyl)-N-dithiocarboxy-D-glucamine.

The newly synthesized dithiocarbamate analog, N-(4-methoxybenzyl)-N-dithiocarboxy-D-glucamine (MeOBDCG) reduced whole-body cadmium levels 66% in cadmium-laden mice when given as 3 injections at 1.0 mmol/kg. Renal and hepatic Cd concentrations were reduced 78 and 85%, respectively. After 6 injections, the whole-body cadmium burden was reduced 71%, while renal and hepatic levels were lowered 84% and 91%, respectively. Mobilized cadmium was excreted almost exclusively by the fecal route. There was no evident toxicity consequent to treatment as judged by mouse body weights and by gross appearance of organs upon dissection. On a molar dose basis, MeOBDCG was more effective than N-benzyl-N-dithiocarboxy-D-glucamine (BDCG) in removing cadmium from both renal and hepatic deposits. An in-vitro assessment of the interaction of MeOBDCG, BDCG and N-methyl-N-dithiocarboxy-D-glucamine with murine cadmium-metallothionein (Cd-MT) revealed a direct relationship between the extent of cadmium depletion from Cd-MT and the relative in-vivo efficacies of the 3 analogs.

The mobilization of intracellular cadmium by butyl and amyl esters of meso-2,3-dimercaptosuccinic acid.

The esters of the general structure, [CH(SH)COOR]2, i.e., Di-BDMS, R = CH2CH(CH3)2; Ds-BDMS, R = CH(CH3)CH2CH3; Di-ADMS, R = CH2CH2CH(CH3)2; and D3-ADMS, R = CH(CH2CH3)2 from the reaction of meso-2,3-dimercaptosuccinic acid with isobutyl, sec-butyl, isoamyl, and 3-amyl alcohols, respectively, have been prepared, characterized, and examined as chelating agents for the removal of cadmium from its aged intracellular deposits. All of these compounds depleted cadmium from such deposits and significantly reduced the whole body levels of cadmium. In the case of three (Ds-BDMS, Di-BDMS, and Di-ADMS) of these compounds, the reductions achieved are equal to or greater than that produced by 2,3-dimercapto-1-propanol (BAL) under similar circumstances. None of these compounds caused any redistribution of cadmium to the brain, and two of them (Di-BDMS and Di-ADMS) caused a very much larger reduction in the liver levels of cadmium than BAL. None was as effective as BAL in reducing kidney levels of cadmium. These compounds are not soluble in water and are administered as solutions in peanut oil. A comparison of the behavior of these compounds with others which have been reported to be effective in reducing body burdens of cadmium in chronic cadmium intoxication reveals that they are among the most effective. An analysis of the manner in which mobilizing efficacy changes with structure indicates that higher, purely alkyl analogs are not expected to be superior to these compounds, though other structural variations may be.

Comparative effects of disulfiram and diethyldithiocarbamate on cadmium distribution in mice.

It has been reported that disulfiram (DSF) and diethyldithiocarbamate (DDTC) have similar actions on cadmium (Cd) distribution in maternal and fetal organs when given to pregnant mice prior to and again immediately after iv administration of Cd (Arch. Toxicol. 55, 161-167, 1984). We have now examined Cd distribution in mice in which virtually all of the Cd was bound to metallothionein (MT) in an attempt to simulate more closely the condition of low level, chronic Cd exposure. When DSF was incorporated into food and ingested by mice over a 4-hr period on each of four days, hepatic and pulmonary Cd levels were reduced significantly. When given ip at 500 mg/kg, DDTC lowered hepatic, renal, splenic, and pancreatic Cd levels, but increased Cd concentrations in brain, testes, heart, and lungs. When DSF was given at 500 mg/kg ip, it lowered hepatic, splenic, testicular, and pancreatic Cd levels, but increased Cd concentrations in heart and brain. In contrast to DDTC, DSF had no effect on pulmonary or renal Cd. When given as a bolus dose po for five days at 1.0 mmole/kg, DDTC lowered renal, splenic, testicular, and pancreatic Cd levels, but increased Cd concentrations in brain and heart. There was no effect on hepatic or pulmonary Cd. When given at the same dose po, DSF did not alter the Cd concentration of any organ assessed. We suggest that studies of interactions of various xenobiotics with Cd in vivo should be done with an animal model which simulates chronic Cd exposure rather than acute Cd intoxication.