Laura Gribaldo

Prevalidation of a model for predicting acute neutropenia by colony forming unit granulocyte/macrophage (CFU-GM) assay

This report describes an international prevalidation study conducted to optimise the Standard Operating Procedure (SOP) for detecting myelosuppressive agents by CFU-GM assay and to study a model for predicting (by means of this in vitro hematopoietic assay) the acute xenobiotic exposure levels that cause maximum tolerated decreases in absolute neutrophil counts (ANC). In the first phase of the study (Protocol Refinement), two SOPs were assessed, by using two cell culture media (Test A, containing GM-CSF; and Test B, containing G-CSF, GM-CSF, IL-3, IL-6 and SCF), and the two tests were applied to cells from both human (bone marrow and umbilical cord blood) and mouse (bone marrow) CFU-GM. In the second phase (Protocol Transfer), the SOPs were transferred to four laboratories to verify the linearity of the assay response and its interlaboratory reproducibility. After a further phase (Protocol Performance), dedicated to a training set of six anticancer drugs (adriamycin, flavopindol, morpholino-doxorubicin, pyrazoloacridine, taxol and topotecan), a model for predicting neutropenia was verified. Results showed that the assay is linear under SOP conditions, and that the in vitro endpoints used by the clinical prediction model of neutropenia are highly reproducible within and between laboratories. Valid tests represented 95% of all tests attempted. The 90% inhibitory concentration values (IC(90)) from Test A and Test B accurately predicted the human maximum tolerated dose (MTD) for five of six and for four of six myelosuppressive anticancer drugs, respectively, that were selected as prototype xenobiotics. As expected, both tests failed to accurately predict the human MTD of a drug that is a likely protoxicant. It is concluded that Test A offers significant cost advantages compared to Test B, without any loss of performance or predictive accuracy. On the basis of these results, we proposed a formal Phase II validation study using the Test A SOP for 16-18 additional xenobiotics that represent the spectrum of haematotoxic potential.

Meeting report: Validation of toxicogenomics-based test systems: ECVAM-ICCVAM/NICEATM considerations for regulatory use

This is the report of the first workshop “Validation of Toxicogenomics-Based Test Systems” held 11–12 December 2003 in Ispra, Italy. The workshop was hosted by the European Centre for the Validation of Alternative Methods (ECVAM) and organized jointly by ECVAM, the U.S. Interagency Coordinating Committee on the Validation of Alternative Methods (ICCVAM), and the National Toxicology Program (NTP) Interagency Center for the Evaluation of Alternative Toxicological Methods (NICEATM). The primary aim of the workshop was for participants to discuss and define principles applicable to the validation of toxicogenomics platforms as well as validation of specific toxicologic test methods that incorporate toxicogenomics technologies. The workshop was viewed as an opportunity for initiating a dialogue between technologic experts, regulators, and the principal validation bodies and for identifying those factors to which the validation process would be applicable. It was felt that to do so now, as the technology is evolving and associated challenges are identified, would be a basis for the future validation of the technology when it reaches the appropriate stage. Because of the complexity of the issue, different aspects of the validation of toxicogenomics-based test methods were covered. The three focus areas include a) biologic validation of toxicogenomics-based test methods for regulatory decision making, b) technical and bioinformatics aspects related to validation, and c) validation issues as they relate to regulatory acceptance and use of toxicogenomics-based test methods. In this report we summarize the discussions and describe in detail the recommendations for future direction and priorities.

The key role of adult stem cells: therapeutic perspectives

ABSTRACT Background: The origin, function and physiology of totipotent embryonic cells are configured to construct organs and create cross-talk between cells for the biological and neurophysiologic development of organisms. Adult stem cells are involved in regenerating tissues for renewal and damage repair. Findings: Adult stem cells have been isolated from adult tissue, umbilical cord blood and other non-embryonic sources, and can transform into many tissues and cell types in response to pathophysiological stimuli. Clinical applications of adult stem cells and progenitor cells have potential in the regeneration of blood cells, skin, bone, cartilage and heart muscle, and may have potential in degenerative diseases. Multi-pluripotent adult stem cells can change their phenotype in response to trans-differentiation or fusion and their therapeutic potential could include therapies regulated by pharmacological modulation, for example mobilising endogenous stem cells and directing them within a tissue to stimulate regeneration. Adult stem cells could also provide a vehicle for gene therapy, and genetically-engineered human adult stem cells have shown success in treatment of genetic disease. Conclusion: Deriving embryonic stem cells from early human embryos raises ethical, legal, religious and political questions. The potential uses of stem cells for generating human tissues are the subject of ongoing public debate. Stem cells must be used in standardised and controlled conditions in order to guarantee the best safety conditions for the patients. One critical point will be to verify the risk of tumourigenicity; this issue may be more relevant to embryonic than adult stem cells.

Hematotoxicity Testing by Cell Clonogenic Assay in Drug Development and Preclinical Trials

In vitro clonogenic assays have been developed and widely used since many years to investigate the proliferation and the differentiation both of pluripotent haemopoietic stem cells (PHSC) and of the different progenitors of blood cell lineages: megakaryocytes (Colony Forming Unit-Mk) granulocyte -macrophage (CFU-GM), erythrocytes (BFU-E/CFU-E). As these techniques have been introduced, they appeared to be very useful to investigate the pathogenic mechanisms of drug induced blood disorders and also for screening compound during preclinical safety study. Because the integrity of the hematopoiesis is also essential to guarantee the immunological function, the application to the toxicology of these clonogenic assays, provides an essential tool for better understanding the in vivo observation (experimental and clinical) by also helping in predicting the degree of a possible in vivo hematotoxic in drug treated patients. The review introduces to basic concepts on hematopoiesis and on classical evaluation of a drug hematotoxic phenomenon. It describes the application of each clonogenic test to assess the specific hematotoxicity action. Moreover it report the most recent studies on standardisation, prevalidation and validation of such assays and critically reviews a model for predicting myelotoxicity by discussing the main aspects referred to the evaluation of the in vivo acute neutropenia by using the in vitro CFU-GM assay.

ECVAM prevalidation study on in vitro cell transformation assays: general outline and conclusions of the study.

The potential for a compound to induce carcinogenicity is a key consideration when ascertaining hazard and risk assessment of chemicals. Among the in vitro alternatives that have been developed for predicting carcinogenicity, in vitro cell transformation assays (CTAs) have been shown to involve a multistage process that closely models important stages of in vivo carcinogenesis and have the potential to detect both genotoxic and non-genotoxic carcinogens. These assays have been in use for decades and a substantial amount of data demonstrating their performance is available in the literature. However, for the standardised use of these assays for regulatory purposes, a formal evaluation of the assays, in particular focusing on development of standardised transferable protocols and further information on assay reproducibility, was considered important to serve as a basis for the drafting of generally accepted OECD test guidelines. To address this issue, a prevalidation study of the CTAs using the BALB/c 3T3 cell line, SHE cells at pH 6.7, and SHE cells at pH 7.0 was coordinated by the European Centre for the Validation of Alternative Methods (ECVAM) and focused on issues of standardisation of protocols, test method transferability and within- and between-laboratory reproducibility. The study resulted in the availability of standardised protocols that had undergone prevalidation [1,2]. The results of the ECVAM study demonstrated that for the BALB/c 3T3 method, some modifications to the protocol were needed to obtain reproducible results between laboratories, while the SHE pH 6.7 and the SHE pH 7.0 protocols are transferable between laboratories, and results are reproducible within- and between-laboratories. It is recommended that the BALB/c 3T3 and SHE protocols as instituted in this prevalidation study should be used in future applications of these respective transformation assays. To support their harmonised use and regulatory application, the development of an OECD test guideline for the SHE CTAs, based on the protocol published in this issue, is recommended. The development of an OECD test guideline for the BALB/c 3T3 CTA should likewise be further pursued upon the availability of additional supportive data and improvement of the statistical analysis.

Whole genome analysis and microRNAs regulation in HepG2 cells exposed to cadmium.

Cadmium (Cd) is a metal known to be toxic and carcinogenic, but its mechanism of action remains to be fully elucidated. We investigated the gene expression modulation in the human hepatoma cell line HepG2 after exposure to 2 μM and 10 μM Cd using an Agilent microarray. Furthermore, we evaluated the microRNA modulation after exposure to 10 μM Cd with a Low Density Array. At the low concentration only eleven genes belonging to the metallothionein familiy were regulated. At the higher concentration the pathway enrichment analysis for the 536 up-regulated genes showed a large number of pathways related to cancer, whereas the 424 down-regulated genes were enriched on pathways correlated to liver function. A large percentage of modified microRNAs belonged to the let-7 family, which is considered to have oncosuppressor functions. Several pathways connected to cancer were regulated at the transcription level, and miRNAs had a potential impact on the modulation of this regulation.

Toxicity of inorganic arsenic and its metabolites on haematopoietic progenitors ¿in vitro¿: comparison between species and sexes.

Inorganic arsenic (iAs) and its metabolites are transferred to the foetus through the placental barrier and this exposure can compromise the normal development of the unborn. For this reason, we assessed the toxicity of sodium arsenite (iAs(III)) and its metabolites dimethylarsinic acid (DMA(V)), monomethylarsonic acid (MMA(V)) and monomethylarsonous acid (MMA(III)) on human haematopoietic cord blood cells and murine bone marrow progenitors in vitro, looking at the effects induced at different concentrations in the two genders. The expression of two enzymes responsible for arsenic biotransformation arsenic methyltranferase (AS3MT) and glutathione S-transferase omega 1 (GSTO1) was evaluated in human cord blood cells. Cord blood and bone marrow cells were exposed in vitro to iAs(III) at a wide range of concentrations: from 0.0001 microM to 10 microM. The methylated arsenic metabolites were tested only on human cord blood cells at concentrations ranging from 0.00064 microM to 50 microM. The results showed that iAs(III) was toxic on male and female colony forming units to about the same extent both in human and in mouse. Surprisingly, very low concentrations of iAs(III) increased the proliferation rate of both human and murine female cells, while male cells showed no significant modulation. MMA(V) and DMA(V) did not exert detectable toxicity on the cord blood cells, while MMA(III) had a marked toxic effect both in male and female human progenitors. AS3MT mRNA expression was not induced in human cord blood cells after iAs(III) exposure. GSTO1 expression decreased after MMA(III) treatment. This study provides evidence that exposure to iAs(III) and MMA(III) at muM concentrations is associated with immunosuppression in vitro.

TBTC induces adipocyte differentiation in human bone marrow long term culture.

Organotins are widely used in agriculture and the chemical industry, causing persistent and widespread pollution. Organotins may affect the brain, liver and immune system and eventually human health. Recently, it has been shown that tri-butyltin (TBT) interacts with nuclear receptors PPAR gamma (peroxisome proliferator-activated receptor gamma) and RXR (retinoid x receptor) leading to adipocyte differentiation in the 3T3 cell line. Since adipocytes are known to influence haematopoiesis, for instance through the expression of cytokines and adhesion molecules, it was considered of interest to further study the adipocyte-stimulating effect of TBTC in human bone marrow cultures. Nile Red spectrofluorimetric analysis showed a significant increase of adipocytes in TBTC-treated cultures after 14 days of long term culture. Real-time PCR and Western blot analysis confirmed the high expression of the specific adipocyte differentiation marker aP2 (adipocyte-specific fatty acid binding protein). PPAR gamma, but not RXR, mRNA was increased after 24 h and 48 h exposure. TBTC also induced a decrease in a number of chemokines, interleukins, and growth factors. Also the expression of leptin, a hormone involved in haematopoiesis, was down regulated by TBTC treatment. It therefore appears that TBTC induced adipocyte differentiation, whilst reducing a number of haematopoietic factors. This study indicates that TBTC may interfere in the haematopoietic process through an alteration of the stromal layer and cytokine homeostasis.

The Use of In Vitro Systems for Evaluating Immunotoxicity: The Report and Recommendations of an ECVAM Workshop

This is the report of a workshop organised by the European Centre for the Validation of Alternative Methods (ECVAM). ECVAMs main goal, as defined in 1993 by its Scientific Advisory Committee, is to promote the scientific and regulatory acceptance of alternative methods that are of importance to the biosciences and which replace, reduce or refine the use of laboratory animals. One of the first priorities set by ECVAM was the implementation of procedures that would enable it to become well informed about the state-of-the-art of non-animal test development and validation, and the potential for the possible incorporation of alternative tests into regulatory procedures. It was decided that this would be best achieved by the organization of ECVAM workshops on specific topics, at which small groups of invited experts would review the current status of various types of in vitro tests and their potential uses, and make recommendations about the best ways forward (). The workshop on “The use of in vitro systems for evaluating Immunotoxicity” was held at ECVAM (Ispra), Italy, on 24th–26th November 2003. The participants represented academia, national organizations, international regulatory bodies and industry. The aim of the workshop was to review the state-of-the-art in the field of in vitro immunotoxicology, and to develop strategies towards the replacement of in vivo testing. At the end of this report are listed the recommendations that should be considered for prevalidation and validation of relevant and reliable procedures, that could replace the use of animals in chemical and cosmetics toxicity testing.

Microenvironmental control of malignancy exerted by RNASET2, a widely conserved extracellular RNase

A recent body of evidence indicates an active role for stromal (mis)-regulation in the progression of neoplasias. Within this conceptual framework, genes belonging to the growing but still poorly characterized class of tumor antagonizing/malignancy suppressor genes (TAG/MSG) seem to play a crucial role in the regulation of the cross-talk between stromal and epithelial cells by controlling malignant growth in vivo without affecting any cancer-related phenotype in vitro. Here, we have functionally characterized the human RNASET2 gene, which encodes the first human member of the widespread Rh/T2/S family of extracellular RNases and was recently found to be down-regulated at the transcript level in several primary ovarian tumors or cell lines and in melanoma cell lines. Although we could not detect any activity for RNASET2 in several functional in vitro assays, a remarkable control of ovarian tumorigenesis could be detected in vivo. Moreover, the control of ovarian tumorigenesis mediated by this unique tumor suppressor gene occurs through modification of the cellular microenvironment and the induction of immunocompetent cells of the monocyte/macrophage lineage. Taken together, the data presented in this work strongly indicate RNASET2 as a previously unexplored member of the growing family of tumor-antagonizing genes.