Characterization of Fat-Storing Cell Lines Derived From Normal and CCl₄-Cirrhotic Livers. Differences in the Production of Interleukin-6

Greenwel, P., Schwartz, M., Rosas, M., Peyrol, S., Grimaud, J. A., Rojkind, M.

01 December 1991

Liver fat-storing cells (FSC) play an important role in collagen deposition. During the induction of liver cirrhosis, FSC lose their fat droplets, acquire an actin-rich cytoskeleton and transform into myofibroblasts. Myofibroblasts have been associated with increased collagen production in cirrhotic livers. Cultured FSC resemble myofibroblasts. However, it is not known whether regulation of collagen gene expression is similar in FSC obtained from normal or cirrhotic livers. In this communication, we describe the characterization of two fat-storing cell lines, one from normal (NFSC) and one from CCl4-cirrhotic liver (CFSC), obtained after spontaneous immortalization in culture. We studied the effect of serum and various growth factors on cell proliferation. We determined the production of collagen and fibronectin and we analyzed the presence of mRNA transcripts of collagens type I, III, and IV, fibronectin laminin, transforming growth factor-β and interleukin-6. We found that CFSC have a greater serum-dependency than NFSC. NFSC grow with a mixture of insulin and epidermal growth factor, whereas CFSC proliferate only with platelet-derived growth factor. Although we did not find significant differences in the expression of mRNAs for collagen type I, fibronectin and transforming growth factor-β, collagen and fibronectin synthesis was increased 2- and 1.5-fold respectively. NFSC contained 1.6- and 2.0-fold more type III collagen and laminin mRNAs, respectively, than CFSC. Neither cell line expressed type IV collagen mRNA. NFSC but not CFSC produced interleukin-6. These results suggest that, except for the lack of transcripts of collagen type IV, both cell lines resemble primary cultures of FSC. However, significant differences in cell proliferation and interleukin-6 production between the two cell lines were found. We suggest that these cell lines could be useful tools to study possible differences in regulation of matrix production by FSC.

cirrhosis

collagen

fibronectin

Ito cells

lipocytes

TGF-β

Transforming Growth Factor Beta (TGF-β): Natural Curing Agents for Repair

Sefat, Farshid

January 2014

yes / There are various techniques to enhance tissue regeneration via the application of growth factors to the site of regeneration to induce cells to proliferate, differentiate and regenerate. Generally, direct application of growth factors has little effect [1] because the growth factor diffuses out from the site of regeneration very quickly. This is a problem that can be solved by a controlled release of growth factor at the site of action over a long period of time by use of a bioabsorbable scaffold. Growth factors are protein based molecules in the body which are produced by cells and attach to the cell surface. Growth factors bind to membrane receptors, which in turn activate an intracellular signalling pathway. This will activate or inhibit a gene causing either an up regulation or down regulation of a gene product, which then alters the cells behaviour.

Protein deregulation associated with breast cancer metastasis

Chan, K.K., Matchett, K.B., McEnhill, P.M., Dakir, El-Habib, McMullin, M.F., El-Tanani, Y., Patterson, Laurence H., Faheem, A., Rudland, P.S., McCarron, P.A., El-Tanani, Mohamed

31 May 2015

No / Breast cancer is one of the most prevalent malignancies worldwide. It consists of a group of tumor cells that have the ability to grow uncontrollably, overcome replicative senescence (tumor progression) and metastasize within the body. Metastases are processes that consist of an array of complex gene dysregulation events. Although these processes are still not fully understood, the dysregulation of a number of key proteins must take place if the tumor cells are to disseminate and metastasize. It is now widely accepted that future effective and innovative treatments of cancer metastasis will have to encompass all the major components of malignant transformation. For this reason, much research is now being carried out into the mechanisms that govern the malignant transformation processes. Recent research has identified key genes involved in the development of metastases, as well as their mechanisms of action. A detailed understanding of the encoded proteins and their interrelationship generates the possibility of developing novel therapeutic approaches. This review will focus on a select group of proteins, often deregulated in breast cancer metastasis, which have shown therapeutic promise, notably, EMT, E-cadherin, Osteopontin, PEA3, Transforming Growth Factor Beta (TGF-β) and Ran.

Scleroderma fibroblasts suppress angiogenesis via TGF-β/caveolin-1 dependent secretion of pigment epithelium-derived factor

Liakouli, V., Elies, Jacobo, El-Sherbiny, Y.M., Scarcia, M., Grant, G., Abignano, G., Derrett-Smith, E.C., Esteves, F., Cipriani, P., Emery, P., Denton, C.P., Giacomelli, R., Mavira, G., Del Galdo, F.

19 December 2017

Yes / Objectives Systemic sclerosis (SSc) is characterised by tissue fibrosis and vasculopathy with defective angiogenesis. Transforming growth factor beta (TGF-β) plays a major role in tissue fibrosis, including downregulation of caveolin-1 (Cav-1); however, its role in defective angiogenesis is less clear. Pigment epithelium-derived factor (PEDF), a major antiangiogenic factor, is abundantly secreted by SSc fibroblasts. Here, we investigated the effect of TGF-β and Cav-1 on PEDF expression and the role of PEDF in the ability of SSc fibroblasts to modulate angiogenesis. Methods P EDF and Cav-1 expression in fibroblasts and endothelial cells were evaluated by means of immunohistochemistry on human and mouse skin biopsies. PEDF and Cav-1 were silenced in cultured SSc and control fibroblasts using lentiviral short-hairpin RNAs. Organotypic fibroblast–endothelial cell cocultures and matrigel assays were employed to assess angiogenesis. Results P EDF is highly expressed in myofibroblasts and reticular fibroblasts with low Cav-1 expression in SSc skin biopsies, and it is induced by TGF-β in vitro. SSc fibroblasts suppress angiogenesis in an organotypic model. This model is reproduced by silencing Cav-1 in normal dermal fibroblasts. Conversely, silencing PEDF in SSc fibroblasts rescues their antiangiogenic phenotype. Consistently, transgenic mice with TGF-β receptor hyperactivation show lower Cav-1 and higher PEDF expression levels in skin biopsies accompanied by reduced blood vessel density. Conclusions O ur data reveal a new pathway by which TGF-β suppresses angiogenesis in SSc, through decreased fibroblast Cav-1 expression and subsequent PEDF secretion. This pathway may present a promising target for new therapeutic interventions in SSc. / NIHR CDF; EULAR ODP

Targeting the TGF-β signaling pathway for resolution of pulmonary arterial hypertension

Sharmin, Nahid, Nganwuchu, Chinyere C., Nasim, Md. Talat

23 May 2021

Yes / Aberrant transforming growth factor-β (TGF-β) signaling activation is linked to pulmonary arterial hypertension (PAH). BMPR2 mutations perturb the balance between bone morphogenetic protein (BMP) and TGF-β pathways, leading to vascular remodeling, narrowing of the lumen of pulmonary vasculature, and clinical symptoms. This forum highlights the association of the TGF-β pathway with pathogenesis and therapeutic approaches. / Research carried out at Nasim laboratories is funded by GrowMedtech, the Royal Society, the Commonwealth Scholarship Commission (CSC) and the University of Bradford (UoB). N.S. is funded by the CSC and C.C.N. is partly funded by the UoB.

Pulmonary arterial hypertension

TGF-β

BMP

Pulmonary vasculature

ALK5 inhibitor

Transforming growth factor beta (TGF-β) isomers influence cell detachment of MG-63 bone cells

Sefat, Farshid, Khaghani, Seyed A., Nejatian, T., Genedy, Mohamed A., Abdeldayem, Ali I.A., Moghaddam, Z.S., Denyer, Morgan C.T., Youseffi, Mansour

20 August 2015

Bone repair and wound healing are modulated by different stimuli. There is evidence that Transforming Growth Factor-beta (TGF-β) super-family of cytokines have significant effects on bone structure by regulating the replication and differentiation of chondrocytes, osteoblasts and osteoclasts. There is also significant evidence that interactions with extracellular matrix molecules influence cell behaviour. In this study cell surface attachment was examined via a trypsinization assay using various TGF-β isomers in which the time taken to trypsinize cells from the surface provided a means of assessing the strength of attachment. Three TGF-β isomers (TGF-β1, 2 and 3), four combined forms (TGF-β(1 + 2), TGF-β(1 + 3), TGF-β(2 + 3) and TGF-β(1 + 2 + 3)) along with four different controls (BSA, HCl, BSA/HCl and negative control) were investigated in this study. The results indicated that treatment with TGF-β1, 2, 3 and HCl decreased cell attachment, however, this effect was significantly greater in the case of TGF-β3 (p < 0.001) indicating perhaps that TGF-β3 does not act alone in cell detachment, but instead functions synergistically with signalling pathways that are dependent on the availability of hydrogen ions. Widefield Surface Plasmon Resonance (WSPR) microscope was also used to investigate cell surface interactions.

Immunological Crosstalk between Human Transforming Growth Factor-β1 and the Malaria Vector Anopheles stephensi

Lieber, Matthew Joshua

30 June 2005

The emergence of pesticide-resistant mosquitoes and drug-resistant parasites in the last twenty years has made control of malaria more difficult. One novel strategy to better control malaria is the development and release of transgenic mosquitoes whose enhanced immunity prevents transmission of the parasite to the mammalian host. One candidate effector gene is Anopheles stephensi nitric oxide synthase (AsNOS), whose inducible expression and subsequent synthesis of nitric oxide (NO) limits Plasmodium development in A. stephensi. In mammals, one of the most potent physiological regulators of NOS gene expression and catalytic activity is transforming growth factor-β (TGF-β). Moreover, human TGF-β can activate Drosophila melanogaster Smads, the proteins responsible for TGF-β signal transduction. We have determined that following a bloodmeal, active human TGF-β1 (hTGF-β1) persists in the midgut of A. stephensi for up to 48 hours. My data demonstrate that the midgut epithelium recognizes hTGF-β1 as an immunomodulatory cytokine. Specifically, induction of AsNOS by hTGF-β1 occurs in the midgut within minutes of bloodfeeding. Moreover, hTGF-β1 limits development of the human malaria parasite Plasmodium falciparum in the midgut. In other experiments, provision of the AsNOS catalytic inhibitor L-NAME partially reverses the effect of hTGF-β1 on Plasmodium development. These results suggest that AsNOS is a target of hTGF-β1 signaling and additional effectors that impact parasite development may be regulated by hTGF-β1 as well. The fact that hTGF-β1 signals mosquito cells to limit malaria parasite development suggests that there is an endogenous TGF-β signaling network in place. An analysis of the A. gambiae genome database revealed the presence of six TGF-β ligands, including gene duplication in the 60A gene, the first evidence of ligand gene duplication outside of chordates. In addition to five receptors, three Smads were identified in the A. gambiae genome predicted to support TGF-β/Activin- and BMP-like signaling. Midgut epithelial cells and an immunocompetent A. stephensi cell line express all three Smads, confirming that a signaling pathway is in place to support signaling by divergent exogenous and endogenous TGF-β superfamily proteins. The results presented here provide the first evidence of immunological crosstalk between divergent free living hosts of a single parasite. Further, these results imply that the interface between mammals and the mosquitoes that feed on them provide a unique opportunity for circulating molecules in the blood, including TGF-β and other cytokines, to alter the mosquito immune response. / Master of Science

TGF-β

Anopheles

Smad

nitric oxide synthase

BMP

signaling

malaria

Antifibrozinių priemonių paieška preklinikiniuose sisteminės sklerozės modeliuose / The performance of antifibrotic agents in preclinical models of systemic sclerosis

Venalis, Paulius

01 October 2010

Sisteminė sklerozė (SSc) – viena sunkiausių ir fatališkiausių autoimuninių sisteminių reumatinių ligų, o bazinių vaistų stygius, šiai ligai gydyti, itin didelis. Į onkologinę klinikinę praktiką įdiegtas tirozinkinazių inhibitorius – imatinibo mezilatas(IM). IM blokuoja TGF-β ir PDGF intraląstelinio signalo perdavimą ir taip sąlygoja fibrozės prevenciją SSc pelių modelyje. Mums buvo svarbu išsiaiškinti, ar imatinibas gali turėti įtakos ne tik prevencijai, bet ir susiformavusiai fibrozei. Be to TGF-β ir PDGF blokavimas angiogenezėje, galėtų riboti daug žadančio fibrozės inhibitoriaus IM naudojimą gydant SSc. Darbo tikslas: įvertinti imatinibo mezilato poveikį fibrozės procesui ir endoteliui sisteminės sklerozės eksperimentiniuose modeliuose ir ląstelių kultūrose. Darbo uždaviniai: įvertinti imatinibo efektyvumą neuždegiminiame SSc modelyje ir patikrinti imatinibo mezilato efektyvumą uždegiminiame suformuotos fibrozės modelyje; ištirti, ar terapinės imatinibo mezilato koncentracijos daro neigiamą poveikį gyvybinėms endotelio funkcijoms; įvertinti imatinibo mezilato poveikį angiogenezės etapams. Mūsų gauti duomenys rodo, kad: IM ne tik sustabdė bet ir paskatino jau egzistuojančios (bleomicino sukeltos) odos firbrozės regresiją; IM ryškiai sumažino poodžio ir odos storį, bei normalizavo miofibroblastų skaičių Tsk-1 pelėse; IM neturėjo poveikio endotelio ląstelių bazinėms funkcijoms; IM neturėjo neigiamo poveikio angiogenezės etapams. / Systemic sclerosis (SSc) – is one of the most complicated and fatal systemic diseases, and the lack of effective therapy is very evident. The tyrosine kinase inhibitor imatinib mesylate (IM) was shown to inhibit TGF-β and PDGF signaling pathways and prevent the development of dermal fibrosis upon challenge with bleomycin in murine model of SSc. The aim of therapy is not only to stop disease progression, but even induce regression of preexisting fibrosis. On other hand, blocking TGF-β and PDGF signaling in angiogenesis might worsen the vascular manifestations of SSc. We found important to evaluate effectiveness of IM for the treatment of pre-established tissue fibrosis and to exclude that the anti-fibrotic effects of IM are complicated by inhibitory effects on endothelial cell functions. Aim of the study: assess the effect of IM on the process of fibrosis and endothelium in experimental models of systemic sclerosis and cell cultures. Objectives of the study: assess the effectiveness of IM on murine models of established fibrosis; evaluate if IM has an effect on basal functions of endothelial cells; assess effect of IM on the process of angiogenesis. We have shown that IM exerts potent antifibrotic effects in two different models of SSc. Imatinib was effective for prevention of fibrosis and for treatment of established dermal fibrosis. We’ve demonstrated that IM does not inhibit major functions of endothelial cells. Thus, IM might not augment further the preexisting vascular... [to full text]

Medicine

Sisteminė sklerozė

Fibrozė

TGF-β

PDGF

Imatinibo mezilatas

Systemic sclerosis

Fibrosis

TGF-β

PDGF

Imatinib mesylate

The performance of antifibrotic agents in preclinical models of systemic sclerosis / Antifibrozinių priemonių paieška preklinikiniuose sisteminės sklerozės modeliuose

Venalis, Paulius

01 October 2010

Systemic sclerosis (SSc) – is one of the most complicated and fatal systemic diseases, and the lack of effective therapy is very evident. The tyrosine kinase inhibitor imatinib mesylate (IM) was shown to inhibit TGF-β and PDGF signaling pathways and prevent the development of dermal fibrosis upon challenge with bleomycin in murine model of SSc. The aim of therapy is not only to stop disease progression, but even induce regression of preexisting fibrosis. On other hand, blocking TGF-β and PDGF signaling in angiogenesis might worsen the vascular manifestations of SSc. We found important to evaluate effectiveness of IM for the treatment of pre-established tissue fibrosis and to exclude that the anti-fibrotic effects of IM are complicated by inhibitory effects on endothelial cell functions. Aim of the study: assess the effect of IM on the process of fibrosis and endothelium in experimental models of systemic sclerosis and cell cultures. Objectives of the study: assess the effectiveness of IM on murine models of established fibrosis; evaluate if IM has an effect on basal functions of endothelial cells; assess effect of IM on the process of angiogenesis. We have shown that IM exerts potent antifibrotic effects in two different models of SSc. Imatinib was effective for prevention of fibrosis and for treatment of established dermal fibrosis. We’ve demonstrated that IM does not inhibit major functions of endothelial cells. Thus, IM might not augment further the preexisting vascular... [to full text] / Sisteminė sklerozė (SSc) – viena sunkiausių ir fatališkiausių autoimuninių sisteminių reumatinių ligų, o bazinių vaistų stygius, šiai ligai gydyti, itin didelis. Į onkologinę klinikinę praktiką įdiegtas tirozinkinazių inhibitorius – imatinibo mezilatas(IM). IM blokuoja TGF-β ir PDGF intraląstelinio signalo perdavimą ir taip sąlygoja fibrozės prevenciją SSc pelių modelyje. Mums buvo svarbu išsiaiškinti, ar imatinibas gali turėti įtakos ne tik prevencijai, bet ir susiformavusiai fibrozei. Be to TGF-β ir PDGF blokavimas angiogenezėje, galėtų riboti daug žadančio fibrozės inhibitoriaus IM naudojimą gydant SSc. Darbo tikslas: įvertinti imatinibo mezilato poveikį fibrozės procesui ir endoteliui sisteminės sklerozės eksperimentiniuose modeliuose ir ląstelių kultūrose. Darbo uždaviniai: įvertinti imatinibo efektyvumą neuždegiminiame SSc modelyje ir patikrinti imatinibo mezilato efektyvumą uždegiminiame suformuotos fibrozės modelyje; ištirti, ar terapinės imatinibo mezilato koncentracijos daro neigiamą poveikį gyvybinėms endotelio funkcijoms; įvertinti imatinibo mezilato poveikį angiogenezės etapams. Mūsų gauti duomenys rodo, kad: IM ne tik sustabdė bet ir paskatino jau egzistuojančios (bleomicino sukeltos) odos firbrozės regresiją; IM ryškiai sumažino poodžio ir odos storį, bei normalizavo miofibroblastų skaičių Tsk-1 pelėse; IM neturėjo poveikio endotelio ląstelių bazinėms funkcijoms; IM neturėjo neigiamo poveikio angiogenezės etapams.

Medicine

Systemic sclerosis

Fibrosis

TGF-β

PDGF

Imatinib mesylate

Sisteminė sklerozė

Fibrozė

TGF-β

PDGF

Imatinibo mezilatas

MiR-199a-5p, un « fibromiR » amplificateur de la voie du TGF-beta dans la fibrose pulmonaire idiopathique / MiR-199a-5p is upregulated during fibrogenic response to tissue injury and mediates TGFbeta-induced lung fibroblast activation by targeting caveolin-1

Henaoui, Imène-Sarah

16 December 2013

La Fibrose Pulmonaire idiopathique (FPI) est une maladie fibroproliférative pour laquelle il n’existe aucun traitement efficace. Les mécanismes à l’origine de cette pathologie sont méconnus et impliquent plusieurs types cellulaires et facteurs de croissance, comme le TGF-β responsable de la différenciation de fibroblastes en myofibroblastes. Pour mieux comprendre ces mécanismes physiopathologiques, nous nous sommes intéressés à l’implication des miARN dans ce processus. Une analyse par puces à ADN de l’ensemble des miARN modulés dans des échantillons pulmonaires de souris, résistantes ou sensibles à la fibrose pulmonaire induite par la bléomycine, nous a permis d’identifier miR-199a-5p comme le meilleur candidat associé à la fibrose pulmonaire mais aussi fibrose rénale et hépatique. J’ai ensuite démontré que l’expression de miR-199a-5p était induite par le TGF-β in vitro, et que sa surexpression ectopique induisait la différenciation des fibroblastes. Une combinaison d’approche in silico et expérimentale, m’a permis d’identifier la Cavéoline-1 (CAV-1) comme cible de ce miARN. La CAV-1 est impliquée dans la dégradation du récepteur TGF-β. Ainsi, l’inhibition de CAV-1 par miR-199a-5p constitue une boucle de rétrocontrôle positif exacerbant la voie TGF-β. De manière intéressante, l’inhibition de miR-199a-5p in vitro régule la différenciation, la prolifération et la migration des fibroblastes pulmonaires par le TGF-β. Par ailleurs, nos résultats précliniques indiquent que l’inhibition de ce miARN diminue les marqueurs de fibrose, permettant d’envisager le développement de nouvelles approches thérapeutiques dans le traitement de la FPI et d’autres maladies fibroprolifératives. / Idiopathic Pulmonary Fibrosis (IPF) is a fibroproliferative disease with poor prognosis and for which no effective treatment exists. The mechanisms of this disease remain poorly understood and involve numerous cell types and growth factors such as TGF-β, which leads to the activation of lung fibroblasts into myofibroblasts; the key cell type driving the fibrogenic process. In this context, we focused the involvement of miRNAs in fibrosis process. To identify miRNAs with potential roles in lung fibrogenesis, we performed a genome-wide assessment of miRNA expression in lungs from two different mouse strains known for their distinct susceptibility to lung fibrosis after bleomycin exposure. We identified miR- 199a-5p as the best candidate associated with lung fibrosis but also kidney and liver fibrosis. I observed that miR-199a-5p expression was induced upon TGF-β exposure, and that its ectopic expression was sufficient to promote the pathogenic activation of pulmonary fibroblasts. Using combination of targets miRNA prediction tools and a transcriptomic approach we identified the Caveolin-1 (CAV-1), a critical mediator of pulmonary fibrosis, as a specific target of miR-199a-5p. Thus, we shown that miR-199a-5p is a key effector of TGF-β signaling in lung fibroblasts by regulating CAV1. Interestingly, inhibition of miR-199a-5p in vitro prevents the differentiation, proliferation and migration of fibroblasts after TGF-β stimulation. Finally, our preclinical results indicate that inhibition of this miRNA decreases fibrosis markers. Thus, miR-199a-5p behaves as a major regulator of tissue fibrosis with therapeutic potency for the treatment of IPF and fibroproliferative diseases.

MicroARN

Fibrose pulmonaire idiopathique

TGF-β

Cavéoline-1

Myofibroblastes

MicroRNAs

Idiopathic pulmonary fibrosis

TGF-β

Caveolin-1

Myofibroblasts