Molecular mechanisms of fibroblastoid cell phenotype transitions:dedifferentiation of myofibroblasts and influencing of invasiveness and metastasis of sarcoma

Fibroblasty jsou základní buněčnou složkou pojivové tkáně. Jedná se o různorodou skupinu buněk, která se svojí schopností produkovat extracelulární matrix (ECM) podílí na architektuře pojivových tkání a na hojení ran. Fibroblasty a od nich odvozené buňky se však účastní i mnoha patologických procesů - tvorby zhoubných nádorů a fibrózy. Progrese nádorů, končící tvorbou metastáz, je závažný biomedicínský problém. V poslední době se stále více ukazuje, že v tomto procesu hraje důležitou roli interakce mezi rakovinnými buňkami a nádorovým stroma. Nádorové stroma je tvořeno především myofibroblasty a jejich produkty, konkrétně ECM a také rozpustnými faktory a enzymy. Myofibroblasty se více či méně podílí na všech krocích nádorové progrese. Myofibroblasty navíc hrají klíčovou roli ve fibróze, dalším dosud prakticky neléčitelném, závažném lidském onemocnění, které úzce souvisí s nádorovou progresí. Proto jsme hledali molekulární nástroje, kterými je možné myofibroblastický fenotyp odstranit. V nově zavedeném kuřecím modelu se podařilo zcela dediferencovat primární myofibroblasty pomocí inhibice signální dráhy TGFβ a současného narušení signální dráhy MAPK. Maligně transformované fibroblasty tvoří sarkomy. ECM je první překážkou při migraci rakovinných buněk primárního sarkomu do dalších orgánů, kde tvoří...Fibroblasts are the principal cellular component of the connective tissue. They are a heterogeneous group of cells which contribute to the structure of connective tissue and wound healing by their ability to produce extracellular matrix (ECM). Fibroblasts and cells derived from them are involved in many pathological processes such as formation of malignant tumors and fibrosis. Tumor progression which finally leads to metastasis is a serious biomedical problem. There is a growing body of the recent evidence showing an important role of the tumor stroma and its interaction with cancer cells in cancer progression. Tumor stroma comprises mainly of myofibroblasts and their products, namely ECM, soluble factors, and enzymes. Myofibroblasts contribute more or less to all steps of cancer progression. Furthermore myofibroblasts play a key role in fibrosis, another serious human disease which is not efficiently treatable and which is associated with cancer progression. These facts made us to search for molecular means capable of eliminating the myofibroblastic phenotype. We succeeded to entirely dedifferentiate primary myofibroblasts by concomitant inhibition of TGFβ signaling and perturbation of MAPK signaling in a chick model that we have introduced. Malignant fibroblasts form sarcomas. ECM is the first...Katedra genetiky a mikrobiologieDepartment of Genetics and MicrobiologyFaculty of SciencePřírodovědecká fakult

Single cell polarity in liquid phase facilitates tumour metastasis

Dynamic polarisation of tumour cells is essential for metastasis. While the role of polarisation during dedifferentiation and migration is well established, polarisation of metastasising tumour cells during phases of detachment has not been investigated. Here we identify and characterise a type of polarisation maintained by single cells in liquid phase termed single-cell (sc) polarity and investigate its role during metastasis. We demonstrate that sc polarity is an inherent feature of cells from different tumour entities that is observed in circulating tumour cells in patients. Functionally, we propose that the sc pole is directly involved in early attachment, thereby affecting adhesion, transmigration and metastasis. In vivo, the metastatic capacity of cell lines correlates with the extent of sc polarisation. By manipulating sc polarity regulators and by generic depolarisation, we show that sc polarity prior to migration affects transmigration and metastasis in vitro and in vivo

NASH limits anti-tumour surveillance in immunotherapy-treated HCC.

Hepatocellular carcinoma (HCC) can have viral or non-viral causes1-5. Non-alcoholic steatohepatitis (NASH) is an important driver of HCC. Immunotherapy has been approved for treating HCC, but biomarker-based stratification of patients for optimal response to therapy is an unmet need6,7. Here we report the progressive accumulation of exhausted, unconventionally activated CD8+PD1+ T cells in NASH-affected livers. In preclinical models of NASH-induced HCC, therapeutic immunotherapy targeted at programmed death-1 (PD1) expanded activated CD8+PD1+ T cells within tumours but did not lead to tumour regression, which indicates that tumour immune surveillance was impaired. When given prophylactically, anti-PD1 treatment led to an increase in the incidence of NASH-HCC and in the number and size of tumour nodules, which correlated with increased hepatic CD8+PD1+CXCR6+, TOX+, and TNF+ T cells. The increase in HCC triggered by anti-PD1 treatment was prevented by depletion of CD8+ T cells or TNF neutralization, suggesting that CD8+ T cells help to induce NASH-HCC, rather than invigorating or executing immune surveillance. We found similar phenotypic and functional profiles in hepatic CD8+PD1+ T cells from humans with NAFLD or NASH. A meta-analysis of three randomized phase III clinical trials that tested inhibitors of PDL1 (programmed death-ligand 1) or PD1 in more than 1,600 patients with advanced HCC revealed that immune therapy did not improve survival in patients with non-viral HCC. In two additional cohorts, patients with NASH-driven HCC who received anti-PD1 or anti-PDL1 treatment showed reduced overall survival compared to patients with other aetiologies. Collectively, these data show that non-viral HCC, and particularly NASH-HCC, might be less responsive to immunotherapy, probably owing to NASH-related aberrant T cell activation causing tissue damage that leads to impaired immune surveillance. Our data provide a rationale for stratification of patients with HCC according to underlying aetiology in studies of immunotherapy as a primary or adjuvant treatment

Molecular mechanisms of fibroblastoid cell phenotype transitions:dedifferentiation of myofibroblasts and influencing of invasiveness and metastasis of sarcoma

Fibroblasts are the principal cellular component of the connective tissue. They are a heterogeneous group of cells which contribute to the structure of connective tissue and wound healing by their ability to produce extracellular matrix (ECM). Fibroblasts and cells derived from them are involved in many pathological processes such as formation of malignant tumors and fibrosis. Tumor progression which finally leads to metastasis is a serious biomedical problem. There is a growing body of the recent evidence showing an important role of the tumor stroma and its interaction with cancer cells in cancer progression. Tumor stroma comprises mainly of myofibroblasts and their products, namely ECM, soluble factors, and enzymes. Myofibroblasts contribute more or less to all steps of cancer progression. Furthermore myofibroblasts play a key role in fibrosis, another serious human disease which is not efficiently treatable and which is associated with cancer progression. These facts made us to search for molecular means capable of eliminating the myofibroblastic phenotype. We succeeded to entirely dedifferentiate primary myofibroblasts by concomitant inhibition of TGFβ signaling and perturbation of MAPK signaling in a chick model that we have introduced. Malignant fibroblasts form sarcomas. ECM is the first..

Age-Related Gliosis Promotes Central Nervous System Lymphoma through CCL19-Mediated Tumor Cell Retention

How lymphoma cells (LCs) invade the brain during the development of central nervous system lymphoma (CNSL) is unclear. We found that NF-κB-induced gliosis promotes CNSL in immunocompetent mice. Gliosis elevated cell-adhesion molecules, which increased LCs in the brain but was insufficient to induce CNSL. Astrocyte-derived CCL19 was required for gliosis-induced CNSL. Deleting CCL19 in mice or CCR7 from LCs abrogated CNSL development. Two-photon microscopy revealed LCs transiently entering normal brain parenchyma. Astrocytic CCL19 enhanced parenchymal CNS retention of LCs, thereby promoting CNSL formation. Aged, gliotic wild-type mice were more susceptible to forming CNSL than young wild-type mice, and astrocytic CCL19 was observed in both human gliosis and CNSL. Therefore, CCL19-CCR7 interactions may underlie an increased age-related risk for CNSL

Single cell polarity in liquid phase facilitates tumour metastasis

Polarisation of metastasising cancer cells in circulation has not been investigated before. Here the authors identify single cell polarity as a distinct polarisation state of single cells in liquid phase, and show that perturbing single cell polarity affects attachment, adhesion, transmigration and metastasis in vitro and in vivo