Pulmonary fibrosis and lung carcinogenesis: do myofibroblasts and cancer-associated fibroblasts share a common identity?

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Utility of fibroblasts derived from broncho-alveolar lavage of patients with idiopathic pulmonary fibrosis or related disorders to develop in vitro models

Broncho-alveolar lavage (BAL) represents a safe tool for the differential diagnosis of various pulmonary fibrotic diseases. Idiopathic pulmonary fibrosis (IPF) belongs to a heterogeneous group of diseases, interstitial lung disease (ILD), presenting a progressive impairment of pulmonary functions. IPF is characterized by the excessive accumulation of extracellular matrix (ECM) in the alveolar parenchyma that may lead to irreversible pulmonary remodeling. Although the exact pathogenetic mechanisms leading to IPF development are still unclear it has been demonstrated that fibroblasts differentiating toward myofibroblasts are the major actors involved in this process. The possibility of obtaining and expanding fibroblasts from the BAL of ILD patients for research purposes has been recently explored. This approach is discussed here as a reliable chance, helpful to advance the scientific community knowledge and to devise two- and three-dimensional (2D/3D) pre-clinical in vitro models of these diseases, further overcoming technical and ethical concerns related to the use of fibroblasts derived from tissue biopsy

Microenvironment regulation of the IL-23R/IL-23 axis overrides chronic lymphocytic leukemia indolence

The development and progression of Chronic Lymphocytic Leukemia (CLL) require co-operation of both microenvironment and cytokines. Investigating the IL-23R/IL-23 axis we found that circulating cells of early-stage CLL patients with shorter time-to-treatment (but not of those with a more benign course) expressed a defective form of the IL-23R complex lacking the IL-12Rß1 chain. However, the cells from both patient groups expressed the com-plete IL-23R complex in tissue infiltrates and could be induced to express it when co-cultured with activated T cells or other CD40L-bearing cells. IL-23 production by CLL cells activated in vitro in this fashion and in lymphoid tissues was observed suggesting the exist-ence of an autocrine/paracrine loop causing CLL cell proliferation. Culture of CLL cells with stromal cells, nurse like cells and stimulation with anti IgM antibodies and IL-4 failed to activate this loop. Interference with the IL-23R/IL-23 axis using an anti-IL-23p19 anti-body proved effective in controlling disease onset/expansion in xenografted mice, suggest-ing potential therapeutic strategies

Microenvironmental regulation of the IL-23R/IL-23 axis overrides chronic lymphocytic leukemia indolence

Although the progression of chronic lymphocytic leukemia (CLL) requires the cooperation of the microenvironment, the exact cellular and molecular mechanisms involved are still unclear. We investigated the interleukin (IL)-23 receptor (IL-23R)/IL-23 axis and found that circulating cells from early-stage CLL patients with shorter time-to-treatment, but not of those with a more benign course, expressed a defective form of the IL-23R complex lacking the IL-12R beta 1 chain. However, cells from both patient groups expressed the complete IL-23R complex in tissue infiltrates and could be induced to express the IL-12R. 1 chain when cocultured with activated T cells or CD40L(+) cells. CLL cells activated in vitro in this context produced IL-23, a finding that, together with the presence of IL-23 in CLL lymphoid tissues, suggests the existence of an autocrine/paracrine loop inducing CLL cell proliferation. Interference with the IL-23R/IL-23 axis using an anti-IL-23p19 antibody proved effective in controlling disease onset and expansion in xenografted mice, suggesting potential therapeutic strategies

The HGF/c-MET axis as a potential target to overcome survival signals and improve therapeutic efficacy in multiple myeloma

Multiple Myeloma (MM) accounts for about 10% of hematologic malignancies and it is the second most frequent hematologic neoplasm after lymphomas. The exact etiology of MM is still unknown and, despite the introduction of more effective and safe drugs in recent years, MM still remains an incurable disease. Intrinsic and acquired resistance of malignant B cells to pharmacological treatments still represents an obstacle for survival improvement. Activation of the Hepatocyte Growth Factor/c-MET axis has been reported as involved in MM pathogenesis: Hepatocyte Growth Factor (HGF) levels are in fact higher in sera from MM patients than in healthy controls, the HGF/c-MET pathway may be activated in autocrine or paracrine manner, and it is interesting to note that a higher c-MET phosphorylation is associated with disease progression. A number of studies have further demonstrated the over-activation of c-MET either in resistant cell lines or in primary malignant plasma cells purified from Bone Marrow of patients resistant to chemotherapy. For this reason c-MET has been proposed as a potential marker of multidrug resistance in the disease. We have here first summarized the potential role of HGF/c-MET interaction in disease evolution and then described novel approaches targeting this axis which could be conceptually utilized, alone or in combination with standard therapies, to treat MM and possibly to overcome drug resistance

The HGF/c-MET axis as a potential target to overcome survival signals and improve therapeutic efficacy in multiple myeloma

Multiple myeloma (MM) accounts for about 10% of hematologic malignancies, and it is the second most frequent hematologic neoplasm after lymphomas. The exact etiology of MM is still unknown and, despite the introduction of more effective and safe drugs in recent years, MM remains an incurable disease. Intrinsic and acquired resistance of malignant B cells to pharmacological treatments still represents an obstacle for survival improvement. Activation of the hepatocyte growth factor/c-MET axis has been reported as involved in MM pathogenesis: hepatocyte growth factor (HGF) levels are in fact higher in sera from MM patients than in healthy controls, the HGF/c-MET pathway may be activated in an autocrine or paracrine manner, and it is interesting to note that a higher c-MET phosphorylation is associated with disease progression. Several studies have further demonstrated the over-activation of c-MET either in resistant cell lines or in primary malignant plasma cells purified from bone marrow of patients resistant to chemotherapy. For this reason, c-MET has been proposed as a potential marker of multidrug resistance in the disease. Here, we first summarize the potential role of HGF/c-MET interaction in disease evolution and then describe novel approaches targeting this axis which could be conceptually utilized, alone or in combination with standard therapies, to treat MM and possibly overcome drug resistance

Utility of fibroblasts derived from broncho-alveolar lavage of patients with idiopathic pulmonary fibrosis or related disorders to develop in vitro models

Broncho-alveolar lavage (BAL) represents a safe tool for the differential diagnosis of various pulmonary fibrotic diseases. Idiopathic pulmonary fibrosis (IPF) belongs to a heterogeneous group of diseases, interstitial lung disease (ILD), presenting a progressive impairment of pulmonary functions. IPF is characterized by the excessive accumulation of extracellular matrix (ECM) in the alveolar parenchyma that may lead to irreversible pulmonary remodeling. Although the exact pathogenetic mechanisms leading to IPF development are still unclear it has been demonstrated that fibroblasts differentiating toward myofibroblasts are the major actors involved in this process. The possibility of obtaining and expanding fibroblasts from the BAL of ILD patients for research purposes has been recently explored. This approach is discussed here as a reliable chance, helpful to advance the scientific community knowledge and to devise two- and three-dimensional (2D/3D) pre-clinical in vitro models of these diseases, further overcoming technical and ethical concerns related to the use of fibroblasts derived from tissue biops

Hepatocyte Growth Factor: A Microenvironmental Resource for Leukemic Cell Growth

Chronic lymphocytic leukemia (CLL) is characterized by the progressive expansion of B lymphocytes CD5+/CD23+ in peripheral blood, lymph-nodes, and bone marrow. The pivotal role played by the microenvironment in disease pathogenesis has become increasingly clear. We demonstrated that bone marrow stromal cells and trabecular bone cells sustain survival of leukemic B cells through the production of hepatocyte growth factor (HGF). Indeed the trans-membrane kinase receptor for HGF, c-MET, is expressed on CLL cells and STAT3 TYR705 or AKT phosphorylation is induced after HGF/c-MET interaction. We have further observed that c-MET is also highly expressed in a peculiar type of cells of the CLL-microenvironment showing nurturing features for the leukemic clone (nurse-like cells: NLCs). Since HGF treatment drives monocytes toward the M2 phenotype and NLCs exhibit features of tumor associated macrophages of type 2 we suggested that HGF, released either by cells of the microenvironment or leukemic cells, exerts a double effect: i) enhances CLL cells survival and ii) drives differentiation of monocytes-macrophages to an oriented immune suppressive phenotype. We here discuss how paracrine, but also autocrine production of HGF by malignant cells, may favor leukemic clone expansion and resistance to conventional drug treatments in CLL, as well as in other hematological malignancies. Novel therapeutic approaches aimed to block HGF/c-MET interactions are further proposed

Potentiation of cisplatin-induced antiproliferative and apoptotic activities by the antiarrhythmic drug procainamide hydrochloride

Background We describe the potentiation of antIProliferative and apoptotic activities triggered by cis-diamminedichloroplatinum(II) (DDP), and obtained in vitro by the co-administration of procainamide hydrochloride (PdHCl) in murine P388, and human A2780 and A549 cells. Methods We determined the antIProliferative and apoptotic activities of DDP and PdHCl combinations by different techniques. Moreover, cell cycle analysis, restriction enzyme inhibition followed by agarose gel electrophoresis, and TUNEL analysis of tumour cells in vivo were also used to strengthen our hypothesis. Results Our results show that PdHCl may significantly increase the inhibition of cell proliferation and apoptosis. Experiments in vivo showed that the co-administration of DDP and PdHCl increased the percentage of apoptotic cells compared to DDP alone treatment, both in subcutaneous (sc) and intraperitoneal (IP) P388 tumours. We finally demonstrated that the co-administration of PdHCl prevents DNA digestion accounting for a restriction enzyme inhibition that in some cases was greater than that obtained by DDP alone. Moreover, when PdHCl was mixed with the reaction products (RP) of DDP (RP-PdHCl) we obtained a restriction enzyme inhibition greater for some enzymes (Bsp1407I, Hin1II, and Psp1406I) than that obtained by the DDP-PdHCl solution. Conclusions On the whole our data demonstrate that the class I antiarrhythmic drug PdHCl may increase the antIProliferative activity of DDP by improving its triggering of apoptosis, and that this phenomenon may be likely linked to the formation of a new Pt compound