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Induced pluripotent stem cells (iPSC) and their differentiated derivatives offer a unique source of human primary cells for toxicity screens. Here,we report on the comparative cytotoxicity of 80 compounds (neurotoxicants,developmental neurotoxicants,and environmental compounds) in iPSC as well as isogenic iPSC-derived neural stem cells (NSC),neurons,and astrocytes. All compounds were tested over a 24-h period at 10 and 100$\$,in duplicate,with cytotoxicity measured using the MTT assay. Of the 80 compounds tested,50 induced significant cytotoxicity in at least one cell type; per cell type,32,38,46,and 41 induced significant cytotoxicity in iPSC,NSC,neurons,and astrocytes,respectively. Four compounds (valinomycin,3,3',5,5'-tetrabromobisphenol,deltamethrin,and triphenyl phosphate) were cytotoxic in all four cell types. Retesting these compounds at 1,10,and 100$\$ using the same exposure protocol yielded consistent results as compared with the primary screen. Using rotenone,we extended the testing to seven additional iPSC lines of both genders; no substantial difference in the extent of cytotoxicity was detected among the cell lines. Finally,the cytotoxicity assay was simplified by measuring luciferase activity using lineage-specific luciferase reporter iPSC lines which were generated from the parental iPSC line. This article is part of a Special Issue entitled SI: PSC and the brain. View Publication

Induced pluripotent stem cells (IPS) are an artificially derived type of pluripotent stem cell,showing many of the same characteristics as natural pluripotent stem cells. IPS are a hopeful therapeutic model; however there is a critical need to determine their response to environmental toxins. Effects of arsenic on cells have been studied extensively; however,its effect on IPS is yet to be elucidated. Arsenic trioxide (ATO) has been shown to inhibit cell proliferation,induce apoptosis and genotoxicity in many cells. Based on ATOs action in other cells,we hypothesize that it will induce alterations in morphology,inhibit cell viability and induce a genotoxic effect on IPS. Cells were treated for 24 hours with ATO (0-9 µg/mL). Cell morphology,viability and DNA damage were documented. Results indicated sufficient changes in morphology of cell colonies mainly in cell ability to maintain grouping and ability to remain adherent. Cell viability decreased in a dose dependent manner. There were significant increases in tail length and moment as well as destruction of intact DNA as concentration increased. Exposure to ATO resulted in a reproducible dose dependent sequence of events marked by changes in morphology,decrease of cell viability,and induction of genotoxicity in IPS. View Publication

Proof of drug-target engagement in physiologically-relevant contexts is a key pillar of successful therapeutic target validation. We developed two orthogonal technologies,the cellular thermal shift assay (CETSA) and a covalent chemical probe reporter approach (harnessing sulfonyl fluoride tyrosine labeling and subsequent click chemistry) to measure the occupancy of the mRNA-decapping scavenger enzyme DcpS by a small molecule inhibitor in live cells. Enzyme affinity determined using isothermal dose response fingerprinting (ITDRFCETSA) and the concentration required to occupy 50% of the enzyme (OC50) using the chemical probe reporter assay were very similar. In this case,the chemical probe method worked well due to the long offset kinetics of the reversible inhibitor (determined using a fluorescent dye-tagged probe). This work suggests that CETSA could become the first choice assay to determine in-cell target engagement due to its simplicity. View Publication

Fluoride is a ubiquitous natural substance that is often used in dental products to prevent dental caries. The biphasic actions of fluoride imply that excessive systemic exposure to fluoride can cause harmful effects on embryonic development in both animal models and humans. However,insufficient information is available on the effects of fluoride on human embryonic stem cells (hESCs),which is a novel in vitro humanized model for analyzing the embryotoxicities of chemical compounds. Therefore,we investigated the effects of sodium fluoride (NaF) on the proliferation,differentiation and viability of H9 hESCs. For the first time,we showed that 1 mM NaF did not significantly affect the proliferation of hESCs but did disturb the gene expression patterns of hESCs during embryoid body (EB) differentiation. Higher doses of NaF (2 mM and above) markedly decreased the viability and proliferation of hESCs. The mode and underlying mechanism of high-dose NaF-induced cell death were further investigated by assessing the sub-cellular morphology,mitochondrial membrane potential (MMP),caspase activities,cellular reactive oxygen species (ROS) levels and activation of mitogen-activated protein kinases (MAPKs). High-dose NaF caused the death of hESCs via apoptosis in a caspase-mediated but ROS-independent pathway,coupled with an increase in the phospho-c-Jun N-terminal kinase (p-JNK) levels. Pretreatment with a pJNK-specific inhibitor (SP600125) could effectively protect hESCs from NaF-induced cell death in a concentration- and time-dependent manner. These findings suggest that NaF might interfere with early human embryogenesis by disturbing the specification of the three germ layers as well as osteogenic lineage commitment and that high-dose NaF could cause apoptosis through a JNK-dependent pathway in hESCs. View Publication

In the United States alone,there are approximately 500,000 burn injuries that require medical treatment every year. Limitations of current treatments necessitate the development of new methods that can be applied quicker,result in faster wound regeneration,and yield skin that is cosmetically similar to undamaged skin. The development of new hydrogel biomaterials and bioprinting deposition technologies has provided a platform to address this need. Herein we evaluated characteristics of twelve hydrogels to determine their suitability for bioprinting applications. We chose hydrogels that are either commercially available,or are commonly used for research purposes. We evaluated specific hydrogel properties relevant to bioprinting applications,specifically; gelation time,swelling or contraction,stability,biocompatibility and printability. Further,we described regulatory,commercial and financial aspects of each of the hydrogels. While many of the hydrogels screened may exhibit characteristics suitable for other applications,UV-crosslinked Extracel,a hyaluronic acid-based hydrogel,had many of the desired properties for our bioprinting application. Taken together with commercial availability,shelf life,potential for regulatory approval and ease of use,these materials hold the potential to be further developed into fast and effective wound healing treatments. View Publication

Stem cells,especially human embryonic stem cells (hESCs),are useful models to study molecular mechanisms of human disorders that originate during gestation. Alcohol (ethanol,EtOH) consumption during pregnancy causes a variety of prenatal and postnatal disorders collectively referred to as fetal alcohol spectrum disorders (FASDs). To better understand the molecular events leading to FASDs,we performed a genome-wide analysis of EtOH's effects on the maintenance and differentiation of hESCs in culture. Gene Co-expression Network Analysis showed significant alterations in gene profiles of EtOH-treated differentiated or undifferentiated hESCs,particularly those associated with molecular pathways for metabolic processes,oxidative stress,and neuronal properties of stem cells. A genome-wide DNA methylome analysis revealed widespread EtOH-induced alterations with significant hypermethylation of many regions of chromosomes. Undifferentiated hESCs were more vulnerable to EtOH's effect than their differentiated counterparts,with methylation on the promoter regions of chromosomes 2,16 and 18 in undifferentiated hESCs most affected by EtOH exposure. Combined transcriptomic and DNA methylomic analysis produced a list of differentiation-related genes dysregulated by EtOH-induced DNA methylation changes,which likely play a role in EtOH-induced decreases in hESC pluripotency. DNA sequence motif analysis of genes epigenetically altered by EtOH identified major motifs representing potential binding sites for transcription factors. These findings should help in deciphering the precise mechanisms of alcohol-induced teratogenesis. ?? 2014 Published by Elsevier B.V. View Publication

Aurora kinases play an important role in chromosome alignment,segregation,and cytokinesis during mitosis. We have recently shown that hematopoietic malignant cells including those from acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL) aberrantly expressed Aurora A and B kinases,and ZM447439,a potent inhibitor of Aurora kinases,effectively induced growth arrest and apoptosis of a variety of leukemia cells. The present study explored the effect of AZD1152,a highly selective inhibitor of Aurora B kinase,on various types of human leukemia cells. AZD1152 inhibited the proliferation of AML lines (HL-60,NB4,MOLM13),ALL line (PALL-2),biphenotypic leukemia (MV4-11),acute eosinophilic leukemia (EOL-1),and the blast crisis of chronic myeloid leukemia K562 cells with an IC50 ranging from 3 nM to 40 nM,as measured by thymidine uptake on day 2 of culture. These cells had 4N/8N DNA content followed by apoptosis,as measured by cell-cycle analysis and annexin V staining,respectively. Of note,AZD1152 synergistically enhanced the antiproliferative activity of vincristine,a tubulin depolymerizing agent,and daunorubicin,a topoisomerase II inhibitor,against the MOLM13 and PALL-2 cells in vitro. Furthermore,AZD1152 potentiated the action of vincristine and daunorubicin in a MOLM13 murine xenograft model. Taken together,AZD1152 is a promising new agent for treatment of individuals with leukemia. The combined administration of AZD1152 and conventional chemotherapeutic agent to patients with leukemia warrants further investigation. View Publication