Zachary Keltner

Reproductive toxicity in rats with crystal nephropathy following high doses of oral melamine or cyanuric acid.

The industrial chemical melamine was used in 2007 and 2008 to raise the apparent protein content in pet feed and watered down milk, respectively. Because humans may be exposed to melamine via several different routes into the human diet as well as deliberate contamination, this study was designed to characterize the effect of high dose melamine or cyanuric acid oral exposure on the pregnant animal and developing fetus, including placental transfer. Clear rectangular crystals formed following a single triazine exposure which is a different morphology from the golden spherulites caused by combined exposure or the calculi formed when melamine combines with endogenous uric acid. Crystal nephropathy, regardless of cause, induces renal failure which in turn has reproductive sequelae. Specifically, melamine alone-treated dams had increased numbers of early and late fetal deaths compared to controls or cyanuric acid-treated dams. As melamine was found in the amniotic fluid, this study confirms transfer of melamine from mammalian mother to fetus and our study provides evidence that cyanuric acid also appears in the amniotic fluid if mothers are exposed to high doses.

Timing and route of exposure affects crystal formation in melamine and cyanuric exposed male and female rats: gavage vs. feeding.

Effects of the dosing matrix and timing on the onset of renal crystal formation were evaluated in male and non-pregnant female rats (Fisher 344) exposed to both melamine (MEL) and cyanuric acid (CYA) for 28 days. Rats were fed ground feed containing 60 ppm MEL and 60 ppm CYA, (5 mg/kg bw/day equivalent), or exposed via oral gavage to carboxymethylcellulose containing 5 mg/kg bw MEL followed by 5 mg/kg bw CYA either consecutively (<1 min apart) or delayed 45 min after MEL. Staggered gavage exposure to MEL/CYA caused extensive renal crystal formation as compared to when the two compounds were administered consecutively or in feed. Treatment related effects included reduced weight gain, feed consumption, and testicular weight and increased kidney weight, water consumption and urine output. Animals from the staggered MEL/CYA gavage exposure group became ill and were removed after 9 days of exposure. Approximately 1 week after the initiation of exposure microscopic urinalysis revealed MEL/CYA crystals in both groups of gavaged animals but not in the MEL/CYA feed treatment groups. Urinary crystals were smaller (10 μm) in animals consecutively gavaged. In contrast the urinary crystals were larger (20-40 μm) and frequently clumped in the animals in the staggered gavage group.

Bioactivity of nanosilver in Caenorhabditis elegans: Effects of size, coat, and shape

The in vivo toxicity to eukaryotes of nanosilver (AgNP) spheres and plates in two sizes each was assessed using the simple model organism Caenorhabditis elegans. For each shape, smaller AgNP size correlated with higher toxicity, as indicated by reduced larval growth. Smaller size also correlated with significant increases in silver uptake for silver nanospheres. Citrate coated silver spheres of 20 nm diameter induced an innate immune response that increased or held steady over 24 h, while regulation of genes involved in metal metabolism peaked at 4 h and subsequently decreased. For AgNP spheres, coating altered bioactivity, with a toxicity ranking of polyethylene glycol (PEG) > polyvinylpyrrolidone (PVP) ≅ branched polyethyleneimine (BPEI) > citrate, but silver uptake ranking of PEG > PVP > citrate > BPEI. Our findings in C. elegans correlate well with findings in rodents for AgNP size vs. uptake and toxicity, as well as for induction of immune effectors, while using methods that are faster and far less expensive, supporting the use of C. elegans as an alternative model for early toxicity screening.

Performance of urinary and gene expression biomarkers in detecting the nephrotoxic effects of melamine and cyanuric acid following diverse scenarios of co-exposure.

Although standard nephrotoxicity assessments primarily detect impaired renal function, KIM-1, clusterin, NGAL, osteopontin and TIMP-1 were recently identified biomarkers proposed to indicate earlier perturbations in renal integrity. The recent adulteration of infant and pet food with melamine (MEL) and structurally-related compounds revealed that co-ingestion of MEL and cyanuric acid (CYA) could form melamine-cyanurate crystals which obstruct renal tubules and induce acute renal failure. This study concurrently evaluated the ability of multiplexed urinary biomarker immunoassays and biomarker gene expression analysis to detect nephrotoxicity in F344 rats co-administered 60ppm each of MEL and CYA in feed or via gavage for 28days. The biomarkers were also evaluated for the ability to differentiate the effects of the compounds when co-administered using diverse dosing schedules (i.e., consecutive vs. staggered gavage) and dosing matrixes (i.e., feed vs. gavage). Our results illustrate the ability of both methods to detect and differentiate the severity of adverse effects in the staggered and consecutive gavage groups at much lower doses than previously observed in animals co-exposed to the compounds in feed. We also demonstrate that these urinary biomarkers outperform traditional diagnostic methods and represent a powerful, non-invasive indicator of chemical-induced nephrotoxicity prior to the onset of renal dysfunction.

Toxicogenomic study in rat thymus of F1 generation offspring following maternal exposure to silver ion

Highlights • Transcriptomics was used to study the effect of silver ion on developing thymus.• Maternal exposure to silver acetate was conducted during gestation and lactation.• Silver acetate up to 40.0 mg/kg did not adversely affect thymic development.

In vitro percutaneous penetration of silver nanoparticles in pig and human skin

ABSTRACT In this study, the effects of surface charge, dose, and cosmetic vehicle on the penetration of silver nanoparticles (AgNPs) into pig and human skin were compared. AgNPs (20 nm) with varying surface‐charges (polyethylene glycol (PEG; neutral), citrate (CIT; negative), and branched polyethylenimine (bPEI; positive) were dosed onto skin in in vitro diffusion cells using an aqueous solution and an oil‐in‐water emulsion formulation. Samples were analyzed by inductively coupled plasma mass spectroscopy (ICP‐MS) and transmission electron microscope (TEM) to assess AgNP skin penetration. The results showed that neutral and positive AgNPs penetrate human skin when applied in a high dose aqueous solution and less with the emulsion vehicle. A mass balance percutaneous penetration study in human skin found the majority of AgNPs were washed from the skin or remained mostly in the stratum corneum (3.4% of the applied dose for AgbPEI and 1.7% for AgPEG). Very little silver was found in the epidermis (1.2% AgbPEI and 0.3% AgPEG) and dermis (0.1% AgbPEI and none detected for AgPEG). These results indicate low dermal penetration of AgNPs that is not greatly affected by surface coating charge. The results will facilitate dermal exposure assessments by better understanding how nanoparticle properties affect skin absorption of nanoparticles found in personal care products. HighlightsSilver nanoparticle skin penetration was examined in human and pig skin.Silver nanoparticle skin penetration from a cosmetic formulation was compared to aqueous vehicle.Most of the silver nanoparticles were unabsorbed.Most silver that penetrated human skin was located on and in the stratum corneum.Surface charge did not appear to greatly affect penetration of silver nanoparticles.

Cardiotoxicity testing of diglycolic acid using In Vitro and In Vivo models

Abstract Background: Renal and hepatotoxicity of diglycolic acid (DGA) has been described with in vitro cellular models as well as in vivo animal and human systems. The possibility of DGA being toxic

Diglycolic acid induces HepG2/C3A liver cell toxicity in vitro

Carboxymethyl starches are added to food products for thickening or tablet binding/filling purposes. Although they lack toxicity, their synthesis creates the chemical byproduct diglycolic acid (DGA), which is difficult to eliminate and whose toxicity is in question. A rare case of an accidental direct exposure to extremely high concentrations of DGA in a person revealed that DGA has the potential to be toxic to several organs, with the kidneys and liver being the most affected organs. Given that DGA is present in our food supply as a chemical byproduct of carboxymethyl starch food additives, we sought to perform in vitro testing of its potential hepatotoxicity to help complement a recent in vivo rat acute dose-response study that also tested for the potential hepatotoxic effects of daily DGA ingestion by oral gavage over a period of 28 days. Using the HepG2/C3A cellular in vitro model, we tested how escalating doses of DGA exposure over 24 h could induce hepatotoxicity. Both in vitro and in vivo testing systems revealed that DGA is indeed a hepatotoxin once a certain exposure threshold is reached. The concordance of these models highlights the utility of in vitro testing to support and help predict in vivo findings.

Comparison of diglycolic acid exposure to human proximal tubule cells in vitro and rat kidneys in vivo

Graphical abstract