V. M. Sadagopa Ramanujam

Bioaccumulation and toxicity of gold nanoparticles after repeated administration in mice

Gold nanoparticles (GNPs) offer a great promise in biomedicine. Currently, there is no data available regarding the accumulation of nanoparticles in vivo after repeated administration. The purpose of the present study was to evaluate the bioaccumulation and toxic effects of different doses (40, 200, and 400 microg/kg/day) of 12.5 nm GNPs upon intraperitoneal administration in mice every day for 8 days. The gold levels in blood did not increase with the dose administered, whereas in all the organs examined there was a proportional increase on gold, indicating efficient tissue uptake. Although brain was the organ containing the lowest quantity of injected GNPs, our data suggest that GNPs are able to cross the blood-brain barrier and accumulate in the neural tissue. Importantly, no evidence of toxicity was observed in any of the diverse studies performed, including survival, behavior, animal weight, organ morphology, blood biochemistry and tissue histology. The results indicate that tissue accumulation pattern of GNPs depend on the doses administered and the accumulation of the particles does not produce sub-acute physiological damage.

Mercury, Lead, and Zinc in Baby Teeth of Children with Autism Versus Controls

This study determined the level of mercury, lead, and zinc in baby teeth of children with autism spectrum disorder (n = 15, age 6.1 ± 2.2 yr) and typically developing children (n = 11, age = 7 ± 1.7 yr). Children with autism had significantly (2.1-fold) higher levels of mercury but similar levels of lead and similar levels of zinc. Children with autism also had significantly higher usage of oral antibiotics during their first 12 mo of life, and possibly higher usage of oral antibiotics during their first 36 mo of life. Baby teeth are a good measure of cumulative exposure to toxic metals during fetal development and early infancy, so this study suggests that children with autism had a higher body burden of mercury during fetal/infant development. Antibiotic use is known to almost completely inhibit excretion of mercury in rats due to alteration of gut flora. Thus, higher use of oral antiobiotics in the children with autism may have reduced their ability to excrete mercury, and hence may partially explain the higher level in baby teeth. Higher usage of oral antibiotics in infancy may also partially explain the high incidence of chronic gastrointestinal problems in individuals with autism.

Altered time course of urinary daidzein and genistein excretion during chronic soya diet in healthy male subjects

Soybean consumption is associated with reduced rates of prostate and other cancers, possibly due in part to the presence of isoflavones. The metabolism and disposition of these soya-derived phytoestrogens after chronic soya exposure were studied on a metabolic unit in six healthy males (21-35 yrs of age) who consumed an unrestricted hospital diet and a 12-oz portion of soymilk with each meal for one month. The daily isoflavone intake was about 100 mg of daidzein (mostly as diadzin) and about 100 of mg of genistein (mostly as genistin). At two-week intervals, excretion of isoflavones in urine was studied, during which time the subjects consumed a constant basal diet for three to four days, ingested the full daily 36-oz portion of soymilk within 30 minutes each day for one to two days, and collected urine continuously. The urinary recovery of ingested diadzin plus daidzein (46.9 +/- 15.2%, mean +/- SD) and genistin plus genistein (14.6 +/- 9.2%) did not change with prolonged soya ingestion. The absorption half-lives (t1/2) for daidzein and genistein and the appearance t1/2 for equol (1 subject) were initially 1.5 +/- 0.4, 1.9 +/- 0.6, and 2.2 hours, respectively, and 2.5 +/- 1.1 (p = 0.06 compared with baseline) 1.4 +/- 0.9 (p = 0.03) compared with baseline), and 4.2 hours, respectively, during one month of soymilk ingestion. The excretion t1/2 for daidzein, genistein, and equol were initially 2.9 +/- 0.5, 3.8 +/- 0.7, and 5.2 hours, respectively, and 3.9 +/- 1.2 (p - 0.03), 5.5 +/- 1.6 (p = 0.02), and 9.7 hours, respectively, during one month of soymilk ingestion. These results indicate that chronic soya exposure did not induce significant changes in the metabolic pathways of isoflavones but altered the time courses of daidzein and genistein excretion. Thus chronic exposure to soya might prolong the tissue exposure to the presumed biologically active free and unconjugated forms of these isoflavones and thereby enhance their oncoprotective effects.

trans, trans-Muconic acid, an open-chain urinary metabolite of benzene in mice. Quantification by high-pressure liquid chromatography

A sensitive h.p.l.c. method is described which separated urinary metabolites from benzene-treated male CD-1 mice. Phenol, trans,trans-muconic acid and quinol in the 48 h urine accounted, respectively, for 12.8-22.8, 1.8-4.7 and 1.5-3.7% of the orally administered single dose of benzene (880, 440 and 220 mg/kg body wt.). Catechol occurred in trace amounts. Ascorbic acid was used to adjust urine pH and increase the extraction efficiency of metabolites, especially muconic acid. It allowed an accurate estimation of quinol by preventing its auto-oxidation. trans,trans-Muconic acid was identified and was unique to benzene as none was detected in urine of mice dosed orally with phenol, catechol or quinol (250, 150 and 200 mg/kg, respectively). The potential existence of a toxic benzene metabolite in the form of an aldehyde precursor of muconic acid in vivo is discussed.

Correlation between the induction of micronuclei in bone marrow by benzene exposure and the excretion of metabolites in urine of CD-1 mice

Male and female CD-1 mice received single oral doses of benzene (220, 440, and 880 mg/kg) and were pretreated with modifiers of the mixed-function oxidase enzyme activities. Urinary metabolites (MT) (0-24 and 24-48 hr) were quantified by high-performance liquid chromatography. The micronucleus test was performed at 30 h. The following pretreatments were used to correlate micronucleus formation and the excreted benzene MT: 3-Methylcholanthrene and beta-naphthoflavone led to a marked increase in micronuclei (MN) and MT, whereas phenobarbital caused a slight increase, and SKF-525A had no effect. MN and MT were decreased when benzene was administered by the ip route or toluene was given simultaneously. Females had a lower number of MN and excreted more unconjugated phenol than did males. Muconic acid, hydroquinone, and phenol glucuronide and MN correlated well. They were dependent on both the dose and route of administration of benzene, being most inducible by P-448 inducers, in males more than females. The administration of hydroquinone induced MN, but phenol or catechol (200, 250, and 150 mg/kg, po, respectively) did not, and none of these compounds yielded trans, trans-muconic acid, a benzene MT in urine. This study establishes that benzene myeloclastogenicity is a function of its metabolism and that quantification of urinary metabolites could provide reliable correlates of this effect in vivo.

Copper and zinc distribution in the human retina: Relationship to cadmium accumulation, age, and gender

The essential metals copper and zinc play vital roles in retinal cell survival and are crucial for the normal functioning of antioxidant enzymes. Retinal zinc deficiencies and decreased cellular antioxidative capacity have been linked to human retinal diseases including age-related macular degeneration (AMD). We recently reported that cadmium (a toxic metal with no known physiological function that interferes with copper and zinc metabolism) accumulates in human retinal tissues during aging. Moreover, cadmium content was higher in specific retinal tissues of aged women compared to men. Since cadmium, zinc and copper bind to similar proteins, we hypothesized that Cu and Zn content of human retinal tissues change as functions of cadmium accumulation during aging. Thus, we assessed the distribution of zinc and copper in the neural retina, retinal pigment epithelium (RPE) and choroid (Bruchs membrane-choroid; BMC) in male and female donors aged 1.5-87 years. Two independent methods, graphite furnace atomic absorption spectrometry and inductively-coupled plasma mass spectrometry, were used to measure Cd, Zn, and Cu in retinal tissues in human eyes from donors aged 1.5 to 87 years and the resulting values were normalized to protein concentration. Zn levels were approximately 5 times higher than Cu levels in the same tissues. The relative tissue distributions of these metals were: BMC>RPE>neural retina (Zn) and BMC>RPE=neural retina (Cu). In the choroid, mean Cu and Zn levels were higher in aged donors (>or=55 years old) than young donors (<55 years) and levels of these metals were strongly correlated with each other (r=0.90). In the neural retina, Cu and Zn both significantly decreased as a function of age. Several sex-related differences were found in the RPE. Specifically, copper levels were significantly higher in males than in females. In addition, both Zn and Cu levels in males were positively correlated with cadmium content, whereas this association did not occur in females. The results are consistent with co-regulation of zinc and copper stores in retinal tissues and suggest that the balance of these metals is associated with cadmium accumulation and gender. Thus, the roles of cadmium and gender differences in retinal metal balance warrant further investigation as factors in age-related retinal disease.

Zinc Binding in Pestivirus Npro Is Required for Interferon Regulatory Factor 3 Interaction and Degradation

Pestiviruses, such as bovine viral diarrhea virus and classical swine fever virus (CSFV), use the viral protein N(pro) to subvert host cell antiviral responses. N(pro) is the first protein encoded by the single large open reading frame of the pestivirus positive-sense RNA genome and has an autoproteolytic activity, cleaving itself off from the polyprotein. N(pro) also targets interferon regulatory factor 3 (IRF3), a transcription factor for alpha/beta interferon genes, and promotes its proteasomal degradation, a process that is independent of the proteolytic activity of N(pro). We determined that N(pro) contains a novel metal-binding TRASH motif consisting of Cys-X(21)-Cys-X(3)-Cys (where X is any amino acid) at its C-terminus. We also found that N(pro) coordinates a single zinc atom as determined by graphite furnace-atomic absorption spectrophotometry and inductively coupled plasma-mass spectrometry. Mutational and biochemical analyses show that the cysteine residues in the TRASH motif are required for zinc binding and protein stability. Individual substitutions of the cysteines in the TRASH motif of CSFV N(pro) abolished the interaction of N(pro) with IRF3 and resulted in the loss of virus-mediated IRF3 degradation in CSFV-infected cells. Thus, the zinc-binding ability of N(pro) in pestiviruses appears to be essential for the virus-mediated degradation of IRF3.

The mutagenic effects of low level sub-acute inhalation exposure to benzene in CD-1 mice

Benzene is a widely used chemical and common environmental contaminant. It is carcinogenic in man and animals and is genotoxic in mice, rats, and occupationally exposed humans at doses above one part per million. In order to evaluate the genotoxic effects of prolonged exposures to very low concentrations of benzene, we exposed CD-1 mice to benzene by inhalation for 22 h per day, seven days per week for six weeks at 40, 100 and 1000 parts per billion (ppb). Additional groups were exposed to purified air or were housed in standard plastic cages. The effects of in vivo exposure to benzene were evaluated by using an autoradiographic assay to determine the frequency of mutants which represent mutations at the hypoxanthine-guanine phosphoribosyl transferase (hprt) locus in spleen lymphocytes. At the end of the six weeks exposure period lymphocytes were recovered from the spleens of the mice and cryopreserved prior to assay. Mutant cells were selected on the basis of their ability to incorporate tritiated thymidine in the presence of 6-thioguanine. The weighted mean variant (mutant) frequencies (Vf) of female mice (three per group) were 7.2 x 10(-6) at 0 ppb; 29.2 x 10(-6) at 40 ppb; 62.5 x 10(-6) at 100 ppb and 25.0 x 10(-6) at 1000 ppb. The Vf of unexposed mice housed in standard cages was 13.2 x 10(-6). In male mice the same pattern of response was observed, but the increases in Vf in response to benzene were not as great. In both sexes of mice, the increases at 40 and 100 ppb were significantly greater than at 0 ppb (P less than 0.05). The increase in Vf with exposure to 100 ppb and the decline at 1000 ppb parallel the results observed for chromosome damage in spleen lymphocytes from the same animals (Au et al., Mutation Res., 260 (1991) 219-224). These results indicate that sub-chronic exposure to benzene at levels below the current Occupational Safety and Health Administration Permitted Exposure Limit may induce gene mutations in lymphocytes in mice.

The influence of simple aromatics on benzene clastogenicity

The micronucleus test was performed in male ICR Swiss mice following modification of benzene metabolism by co-administration of aniline, pyridine or naphthalene, or by prior injection of alpha-naphthoflavone. HPLC profiles of urinary metabolites were compared to the effects of these compounds on clastogenicity. Pyridine inhibited both benzene clastogenicity and its metabolism. Aniline and naphthalene increased the clastogenicity and slightly altered the metabolism of benzene. alpha-Naphthoflavone inhibited benzene clastogenicity and metabolism only at high doses. Since 3-methylcholanthrene and phenobarbital both increase the metabolism of benzene but only 3-methylcholanthrene increases benzene clastogenicity, specific P450 isozymes may be responsible for different biological effects of benzene, and alterations in these effects might be caused by a shift from one isozyme to another.

The identification and characterization of a urinary mutagen resulting from cigarette smoke

The urine of a cigarette smoker who excretes exceptionally mutagenic urine was analyzed for several factors affecting mutagenicity. S. typhimurium strain TA98 was always more sensitive to XAD-2 urine concentrates than TA100. With TA98, as high as 85 revertants per ml of urine were produced. It was observed that incubation with beta-glucuronidase was not required for expression of mutagenicity but that a complete S9 mix was needed to convert the material in the concentrate to the ultimate mutagenic species. TLC and HPLC separation of the XAD-2 urine concentrate resulted in the identification of trace amounts of the bladder carcinogen, 2-aminonaphthalene (beta-naphthylamine) and a considerable amount of a possible metabolite of 2-aminonaphthalene, 2-amino-7-naphthol. The identity of the compounds was confirmed by mass spectral analysis, and 2-amino-7-naphthol was shown to be a mutagen for TA100 and TA98 when activated by rat-liver S9.