Genotoxicity and cytotoxicity of zinc oxide and titanium dioxide in HEp-2 cells

Osman, I. F., Baumgartner, A., Cemeli, E., Fletcher, J. N., Anderson, D.

January 2010

AIMS: The rapidly growing industrial and medical use of nanomaterials, especially zinc oxide and titanium dioxide, has led to growing concerns about their toxicity. Accordingly, the intrinsic genotoxic and cytotoxic potential of these nanoparticles have been evaluated. MATERIALS & METHODS: Using a HEp-2 cell line, cytotoxicity was tested along with mitochondrial activity and neutral red uptake assays. The genotoxic potential was determined using the Comet and the cytokinesis-blocked micronucleus assays. In addition, tyrosine phosphorylation events were investigated. RESULTS & CONCLUSION: We found concentration- and time-dependent cytotoxicity and an increase in DNA and cytogenetic damage with increasing nanoparticle concentrations. Mainly for zinc oxide, genotoxicity was clearly associated with an increase in tyrosine phosphorylation. Our results suggest that both types of nanoparticles can be genotoxic over a range of concentrations without being cytotoxic.

Cell Survival/drug effects

Comet Assay

DNA Damage

DNA, Neoplasm/drug effects

Female

HeLa Cells/drug effects/pathology

Humans

Lysosomes/drug effects/metabolism

Nanoparticles/*toxicity

Phosphotyrosine/metabolism

Photosensitizing Agents/toxicity

Titanium/*toxicity

Uterine Cervical Neoplasms/pathology

Zinc Oxide/*toxicity

REF 2014

Biguanide metformin acts on tau phosphorylation via mTOR/protein phosphatase 2A (PP2A) signaling

Kickstein, E., Krauss, S., Thornhill, P., Rutschow, D., Zeller, R., Sharkey, J., Williamson, Ritchie, Fuchs, M., Kohler, A., Glossmann, H., Schneider, R., Sutherland, C., Schweiger, S.

January 2010

No / Hyperphosphorylated tau plays an important role in the formation of neurofibrillary tangles in brains of patients with Alzheimer's disease (AD) and related tauopathies and is a crucial factor in the pathogenesis of these disorders. Though diverse kinases have been implicated in tau phosphorylation, protein phosphatase 2A (PP2A) seems to be the major tau phosphatase. Using murine primary neurons from wild-type and human tau transgenic mice, we show that the antidiabetic drug metformin induces PP2A activity and reduces tau phosphorylation at PP2A-dependent epitopes in vitro and in vivo. This tau dephosphorylating potency can be blocked entirely by the PP2A inhibitors okadaic acid and fostriecin, confirming that PP2A is an important mediator of the observed effects. Surprisingly, metformin effects on PP2A activity and tau phosphorylation seem to be independent of AMPK activation, because in our experiments (i) metformin induces PP2A activity before and at lower levels than AMPK activity and (ii) the AMPK activator AICAR does not influence the phosphorylation of tau at the sites analyzed. Affinity chromatography and immunoprecipitation experiments together with PP2A activity assays indicate that metformin interferes with the association of the catalytic subunit of PP2A (PP2Ac) to the so-called MID1-alpha4 protein complex, which regulates the degradation of PP2Ac and thereby influences PP2A activity. In summary, our data suggest a potential beneficial role of biguanides such as metformin in the prophylaxis and/or therapy of AD.

Adenylate Kinase

Metabolism

Alzheimer Disease

Pathology

Physiopathology

Animals

Cells

Cultured

Enzyme Inhibitors

Pharmacology

Epitopes

HeLa cells

Humans

Hypoglycemic agents

Metformin

Mice

Transgenic

Multiprotein complexes

Neurofibrillary Tangles

Neurons

Cytology

Okadaic acid

Phosphorylation

Protein Phosphatase 2

Proteins

Signal Transduction

Drug effects

TOR Serine-Threonine Kinases

Tau Proteins

REF 2014

Micro RNA-Mediated regulation of the full-length and truncated isoforms of human neurotrophic tyrosine kinase receptor type 3 (NTRK 3)

Guidi, Mònica

13 January 2009

Neurotrophins and their receptors are key molecules in the development of thenervous system. Neurotrophin-3 binds preferentially to its high-affinity receptorNTRK3, which exists in two major isoforms in humans, the full-length kinaseactiveform (150 kDa) and a truncated non-catalytic form (50 kDa). The twovariants show different 3'UTR regions, indicating that they might be differentiallyregulated at the post-transcriptional level. In this work we explore howmicroRNAs take part in the regulation of full-length and truncated NTRK3,demonstrating that the two isoforms are targeted by different sets of microRNAs.We analyze the physiological consequences of the overexpression of some of theregulating microRNAs in human neuroblastoma cells. Finally, we providepreliminary evidence for a possible involvement of miR-124 - a microRNA with noputative target site in either NTRK3 isoform - in the control of the alternativespicing of NTRK3 through the downregulation of the splicing repressor PTBP1. / Las neurotrofinas y sus receptores constituyen una familia de factores crucialespara el desarrollo del sistema nervioso. La neurotrofina 3 ejerce su funciónprincipalmente a través de una unión de gran afinidad al receptor NTRK3, del cualse conocen dos isoformas principales, una larga de 150KDa con actividad de tipotirosina kinasa y una truncada de 50KDa sin dicha actividad. Estas dos isoformasno comparten la misma región 3'UTR, lo que sugiere la existencia de unaregulación postranscripcional diferente. En el presente trabajo se ha exploradocomo los microRNAs intervienen en la regulación de NTRK3, demostrando que lasdos isoformas son reguladas por diferentes miRNAs. Se han analizado lasconsecuencias fisiológicas de la sobrexpresión de dichos microRNAs utilizandocélulas de neuroblastoma. Finalmente, se ha estudiado la posible implicación delmicroRNA miR-124 en el control del splicing alternativo de NTRK3 a través de laregulación de represor de splicing PTBP1.

RISC complex

retinoic acid

renilla luciferase

real-time quantitative PCR

PTBP1

pri-miRNA

pre-miRNA

post-transcriptional regulation

piRNA

PicTar

pGL4.13

PCR

P-body

p75NTR

overexpression

NTRK3

NTRK2

NTRK1

non-coding RNAs

NGF

neurotrophin

neurotrophic signaling

neuronal differentiation

neurodevelopment

neuroblastoma

nervous system

mRNA

miRNA target prediction

miRNA profiling

miRNA mimic

miRNA microarray

miRNA inhibitor

miRanda

microRNA

microarray

luciferase assay

Ingenuity Pathway Analysis (IPA)

heLa cells

gene silencing

gene regulation

full-length isoform (FL-NTRK3)

firefly luciferase

ERK

disease

dicer

cancer development

BDNF

argonaute

alternative splicing

3'UTR

RNAhybrid

RT-PCR

SH-SY5Y cells

siRNA

standard error

synaptic plasticity

target validation

TargetScan

transfection

translational repression

TrkA

TrkB

TrkC

truncated isoform (TR-NTRK3)

tyrosine kinase (TK)

western blot

575

61