Project description:neurological disorders in mice

Project description:Metastasis accounts for 90% of cancer-related deaths, yet the mechanisms by which cancer cells colonize secondary organs remain poorly understood. For breast cancer patients, metastasis to the liver is associated with poor prognosis and a median survival of 6 months. Standard of care is chemotherapy, but recurrence occurs in 30% of patients. Systemic chemotherapy has been shown to induce hepatotoxicity and fibrosis, but how chemotherapy impacts the composition of the liver extracellular matrix (ECM) remains unknown. Individual ECM proteins drive tumor cell proliferation and invasion, features that are essential for metastatic outgrowth in the liver. Here, we characterize the liver ECM of tumor-bearing mice treated with and without chemotherapy using the MMTV-PyMT transgenic model of breast cancer. We identify distinct drug-specific changes induced by commonly used cytotoxic chemotherapies. We identify Collagen V as an ECM protein that is more abundant in livers isolated from paclitaxel-treated mice and identify mechanisms of Collagen V driven invasion via ECM organization and signaling through α1β1 integrins.

Project description:Head and neck squamous cell carcinoma (HNSCC) is the sixth most commonly diagnosed cancer worldwide, with an incidence of about 600,000 new cases per year, accounting for 1-2% of all cancer deaths worldwide. Current treatment for head and neck cancer includes taxol (docetaxel), platinum compounds (e.g. cisplatin or carboplatin) and the anti metabolite 5 fluorouracil (5 FU), either as single agents or in combination, and also radiotherapy. Response rates to these chemotherapeutic drugs range from 60 to 80%, however there are high rates of resistance, which often leads to locoregional recurrence and metastasis. The therapeutic dose of treatment needed (hormone therapy, radiotherapy or chemotherapy) is often too toxic for the patient to withstand. Therefore, our main objetive in this proyect is the identification of the molecular and cellular mechanisms involved in the acquisition of resistance to chemotherapy as currently key pieces for the discovery of new drugs that allow the development of effective therapies against HNSCC.

Project description:A total of 493 differentially expressed genes were identified in response to 50 mM ethanol exposure, in which 111 of them were up-regulated and 382 were down-regulated. Gene ontology term enrichment analysis revealed that the genes are involved in the important biological processes like neurological system process, cognition, behavior, sensory perception of smell, taste and chemical stimuli and synaptic transmission. In consistent, disease enrichment chart showed relevant categories like neurological diseases, developmental disorders, skeletal and muscular disorders, connective tissue disorders. Furthermore, we have shorted out a group of 26 genes that encode transcription factors. We validated relative gene expression of several transcription factors from the list by quantitative real time PCR. We hope that our study substantially contributes to the understanding of the molecular mechanism underlying the pathology of alcohol mediated anomalies and ease further research. Our aim was to provide a profile of important regulator that exerts ethanol related genomic alteration. For this, we have analyzed gene expression pattern of human carcinoma cell derived embryoid bodies in absence or presence of ethanol. A cDNA microarray analysis was used to profile mRNA expression in embryoid bodies at day 7 with or without ethanol treatment.

Project description:Vincristine, oxaliplatin, and cisplatin are commonly prescribed chemotherapeutic agents for the treatment of several cancer types. However, a main side-effect is chemotherapy-induced peripheral neuropathy (CIPN), which may lead to decreased quality of life, changes in chemotherapeutic treatment or even treatment cessation. Although painful symptoms associated with CIPN are faithfully recapitulated by mouse models, there is limited knowledge of how these drugs affect the expression of genes in peripheral sensory neurons. The present study carried out a transcriptomic analysis of dorsal root ganglia isolated from mice treated with vincristine, oxaliplatin, and cisplatin with a view to gain insight into the comparative pathophysiological mechanisms of CIPN. RNA-Seq using 75-nucleotide single end runs revealed 368, 295 and 256 differential expressed genes (DEGs) induced by treatment with vincristine, oxaliplatin and cisplatin, respectively. Although there were many similarities in DEGs between chemotherapeutic agents, only 5 genes were dysregulated in all groups. Cell type enrichment analysis (CTEA) and gene set enrichment analysis (GSEA) showed predominant effects on genes associated with the immune system after treatment with vincristine, while oxaliplatin treatment affected mainly neuronal genes. Treatment with cisplatin resulted in a mixed inflammatory and neuropathic gene expression signature. Only ‘regulation of transport’ and ‘response to external stimuli’ were gene ontology terms shared between all treatments. These results provide insight into the recruitment of innate and adaptive immune responses to DRG tissue and indicate enhanced neuro-inflammatory processes following administration of vincristine, oxaliplatin, and cisplatin. These gene expression signatures may provide insight into novel drug targets for treatment of CIPN.

Project description:Vincristine, oxaliplatin, and cisplatin are commonly prescribed chemotherapeutic agents for the treatment of several cancer types. However, a main side-effect is chemotherapy-induced peripheral neuropathy (CIPN), which may lead to decreased quality of life, changes in chemotherapeutic treatment or even treatment cessation. Although painful symptoms associated with CIPN are faithfully recapitulated by mouse models, there is limited knowledge of how these drugs affect the expression of genes in peripheral sensory neurons. The present study carried out a transcriptomic analysis of dorsal root ganglia isolated from mice treated with vincristine, oxaliplatin, and cisplatin with a view to gain insight into the comparative pathophysiological mechanisms of CIPN. RNA-Seq using 75-nucleotide single end runs revealed 368, 295 and 256 differential expressed genes (DEGs) induced by treatment with vincristine, oxaliplatin and cisplatin, respectively. Although there were many similarities in DEGs between chemotherapeutic agents, only 5 genes were dysregulated in all groups. Cell type enrichment analysis (CTEA) and gene set enrichment analysis (GSEA) showed predominant effects on genes associated with the immune system after treatment with vincristine, while oxaliplatin treatment affected mainly neuronal genes. Treatment with cisplatin resulted in a mixed inflammatory and neuropathic gene expression signature. Only ‘regulation of transport’ and ‘response to external stimuli’ were gene ontology terms shared between all treatments. These results provide insight into the recruitment of innate and adaptive immune responses to DRG tissue and indicate enhanced neuro-inflammatory processes following administration of vincristine, oxaliplatin, and cisplatin. These gene expression signatures may provide insight into novel drug targets for treatment of CIPN.

Project description:Increasing pre-clinical data suggest that chemotherapy may elicit pro-metastatic responses in breast cancer models. Primary tumours release extracellular vesicles (EVs) that can facilitate the seeding and growth of metastatic cancer cells in distant organs, but the effects of chemotherapy on pro-metastatic EVs are poorly understood. The goal of the project was to analyse the protein content in EVs released by the mouse breast cancer cell line 4T1 after treatment with the chemotherapeutic agent paclitaxel (PTX) or its vehicle control cremophor (CREMO).

Project description:A total of 493 differentially expressed genes were identified in response to 50 mM ethanol exposure, in which 111 of them were up-regulated and 382 were down-regulated. Gene ontology term enrichment analysis revealed that the genes are involved in the important biological processes like neurological system process, cognition, behavior, sensory perception of smell, taste and chemical stimuli and synaptic transmission. In consistent, disease enrichment chart showed relevant categories like neurological diseases, developmental disorders, skeletal and muscular disorders, connective tissue disorders. Furthermore, we have shorted out a group of 26 genes that encode transcription factors. We validated relative gene expression of several transcription factors from the list by quantitative real time PCR. We hope that our study substantially contributes to the understanding of the molecular mechanism underlying the pathology of alcohol mediated anomalies and ease further research.

Project description:Anti-cancer drug testing is challenging, but genetically engineered mouse models (GEMMs) and orthotopic, syngeneic transplants (OSTs) may offer advantages for pre-clinical testing including an intact microenvironment. We examined the efficacy of six chemotherapeutic or targeted anti-cancer drugs, alone and in combination, using over 500 GEMMs/OSTs representing three distinct breast cancer subtypes: Basal-like (C3(1)-T-antigen GEMM), Luminal B (MMTV-Neu GEMM), and Claudin-low (T11/TP53-/- OST). While a few single agents offered exceptional efficacy like lapatinib in the Neu/ERBB2 driven model, combination therapies tended to be more active and life prolonging. Using expression profiling of chemotherapy treated murine tumors, we identified an expression signature that was able to predict pathological complete response to neoadjuvant anthracycline-taxane treated human breast cancer patients, even after accounting for the common clinical variables and other genomic signatures. These results show that credentialed murine models can predict the efficacy of would-be anti-cancer compounds in humans, and that GEMMs can be used to develop new biomarkers of therapeutic responsiveness in humans. control X treatment

Project description:Next Generation Mendelian Genetics: Hereditary Neurological Disorders