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Cells ◽  
2021 ◽  
Vol 10 (12) ◽  
pp. 3506
Author(s):  
Małgorzata Gałdyszyńska ◽  
Paulina Radwańska ◽  
Jacek Szymański ◽  
Jacek Drobnik

Information about mechanical strain in the extracellular space is conducted along collagen fibers connected with integrins and then transmitted within cells. An aim of the study is to verify the hypothesis that the stiffness of cardiac human fibroblast substrates exerts a regulatory effect on collagen metabolism via integrin α2β1 and downstream signaling. The experiments were performed on human cardiac fibroblasts cultured on stiff or soft polyacrylamide gels. Extracellular and intracellular collagen content, metalloproteinase-1 (MMP-1), metalloproteinase-9 (MMP-9) and expression of the α1 chain of the procollagen type I gene (Col1A1) were elevated in cultures settled on soft substrate. The substrate stiffness did not modify tissue inhibitors of matrix metalloproteinase capacity (TIMPs 1–4). Integrin α2β1 inhibition (TC-I 15) or α2 subunit silencing resulted in augmentation of collagen content within the culture. Expression of Col1A1 and Col3A1 genes was increased in TC-I 15-treated fibroblasts. Total and phosphorylated levels of both FAK and Src kinases were elevated in fibroblasts cultured on stiff substrate. Inhibition of FAK (FAK kinase inhibitor 14) or Src kinase (AZM 47527) increased collagen content within the culture. The substrate stiffness exerted a regulatory influence on collagen metabolism via integrin α2β1 and its downstream signaling (FAK and Src kinases) in cardiac fibroblasts.


2021 ◽  
Vol 11 (3) ◽  
Author(s):  
Rony Mshaik ◽  
John Simonet ◽  
Aleksandra Georgievski ◽  
Layla Jamal ◽  
Shaliha Bechoua ◽  
...  

AbstractT-cell and B-cell acute lymphoblastic leukemias (T-ALL, B-ALL) are aggressive hematological malignancies characterized by an accumulation of immature T- or B-cells. Although patient outcomes have improved, novel targeted therapies are needed to reduce the intensity of chemotherapy and improve the prognosis of high-risk patients. Using cell lines, primary cells and patient-derived xenograft (PDX) models, we demonstrate that ALL cells viability is sensitive to NVP-BEP800, an ATP-competitive inhibitor of Heat shock protein 90 (HSP90). Furthermore, we reveal that lymphocyte-specific SRC family kinases (SFK) are important clients of the HSP90 chaperone in ALL. When PDX mice are treated with NVP-BEP800, we found that there is a decrease in ALL progression. Together, these results demonstrate that the chaperoning of SFK by HSP90 is involved in the growth of ALL. These novel findings provide an alternative approach to target SRC kinases and could be used for the development of new treatment strategies for ALL.


2020 ◽  
Vol 21 (21) ◽  
pp. 8246
Author(s):  
Eun Seon Pak ◽  
Md Jamal Uddin ◽  
Hunjoo Ha

Acute kidney injury (AKI), a critical syndrome characterized by a rapid decrease of kidney function, is a global health problem. Src family kinases (SFK) are proto-oncogenes that regulate diverse biological functions including mitochondrial function. Since mitochondrial dysfunction plays an important role in the development of AKI, and since unbalanced SFK activity causes mitochondrial dysfunction, the present study examined the role of SFK in AKI. Lipopolysaccharides (LPS) inhibited mitochondrial biogenesis and upregulated the expression of NGAL, a marker of tubular epithelial cell injury, in mouse proximal tubular epithelial (mProx) cells. These alterations were prevented by PP2, a pan SFK inhibitor. Importantly, PP2 pretreatment significantly ameliorated LPS-induced loss of kidney function and injury including inflammation and oxidative stress. The attenuation of LPS-induced AKI by PP2 was accompanied by the maintenance of mitochondrial biogenesis. LPS upregulated SFK, especially Fyn and Src, in mouse kidney as well as in mProx cells. These data suggest that Fyn and Src kinases are involved in the pathogenesis of LPS-induced AKI, and that inhibition of Fyn and Src kinases may have a potential therapeutic effect, possibly via improving mitochondrial biogenesis.


2020 ◽  
Vol 31 (23) ◽  
pp. 2557-2569
Author(s):  
Jessica L. Teo ◽  
Vanesa M. Tomatis ◽  
Luke Coburn ◽  
Anne K. Lagendijk ◽  
Irin-Maya Schouwenaar ◽  
...  

Apoptotic cell extrusion is predicted to accumulate local tissue stresses that represent a mechanical cost for the epithelium, but how such costs may be alleviated is poorly understood. Here we identify a Src family kinase-mechanosensitive early immediate response of neighbor cells that relieves mechanical stress and allows extrusion to occur.


2020 ◽  
Vol 21 (20) ◽  
pp. 7437
Author(s):  
Sonia Alcalá ◽  
Víctor Mayoral-Varo ◽  
Laura Ruiz-Cañas ◽  
Juan Carlos López-Gil ◽  
Christopher Heeschen ◽  
...  

The proto-oncogene nonreceptor tyrosine-protein kinase SRC is a member of the SRC family of tyrosine kinases (SFKs), and its activation and overexpression have been shown to play a protumorigenic role in multiple solid cancers, including pancreatic ductal adenocarcinoma (PDAC). PDAC is currently the seventh-leading cause of cancer-related death worldwide, and, by 2030, it is predicted to become the second-leading cause of cancer-related death in the United States. PDAC is characterized by its high lethality (5-year survival of rate of <10%), invasiveness, and chemoresistance, all of which have been shown to be due to the presence of pancreatic cancer stem cells (PaCSCs) within the tumor. Due to the demonstrated overexpression of SRC in PDAC, we set out to determine if SRC kinases are important for PaCSC biology using pharmacological inhibitors of SRC kinases (dasatinib or PP2). Treatment of primary PDAC cultures established from patient-derived xenografts with dasatinib or PP2 reduced the clonogenic, self-renewal, and tumor-initiating capacity of PaCSCs, which we attribute to the downregulation of key signaling factors such as p-FAK, p-ERK1-2, and p-AKT. Therefore, this study not only validates that SRC kinases are relevant and biologically important for PaCSCs but also suggests that inhibitors of SRC kinases may represent a possible future treatment option for PDAC patients, although further studies are still needed.


2020 ◽  
Vol 10 (4) ◽  
pp. 204589402097355
Author(s):  
Charles E Norton ◽  
Nikki L Jernigan ◽  
Benjimen R Walker ◽  
Thomas C Resta

Enhanced vasoconstriction is increasingly identified as an important contributor to the development of pulmonary hypertension. Chronic hypoxia results in enhanced Rho kinase mediated Ca2+ sensitization contributing to pressure-dependent pulmonary arterial tone as well as augmented vasoconstriction to endothelin-1 and depolarizing stimuli. We sought to investigate the interaction between these vasoconstrictor stimuli in isolated, pressurized, pulmonary arteries. We used the K+ ionophore, valinomycin, to clamp membrane potential (Vm) to investigate the role of membrane depolarization in endothelin-1 and pressure-dependent constriction, and endothelin-1 receptor inhibitors to determine whether membrane depolarization or stretch signal through endothelin-1 receptors. Clamping Vm prevented pressure-dependent tone, but not enhanced vasoconstriction to endothelin-1 following chronic hypoxia. Furthermore, endothelin-1 receptor inhibition had no effect on either pressure-dependent tone or vasoconstriction to KCl. As Src kinases contribute to both pressure-dependent tone and enhanced endothelin-1 vasoconstriction following chronic hypoxia, we further investigated their role in depolarization-induced vasoconstriction. Inhibition of Src kinases attenuated enhanced vasoconstriction to KCl. We conclude that membrane depolarization contributes to pressure-dependent tone but not enhanced vasoconstriction to ET-1, and that Src kinases serve as upstream mediators facilitating enhanced Rho kinase-dependent vasoconstriction following chronic hypoxia.


2020 ◽  
Vol 35 (Supplement_3) ◽  
Author(s):  
Debra Dorotea ◽  
Hunjoo Ha

Abstract Background and Aims Diabetic kidney disease (DKD) is the major cause of end-stage kidney disease which is characterized by prominent kidney fibrosis. Src family kinases (SFKs), a family of proto-oncogenes, has been acknowledged to mediate the development of kidney fibrosis. While, several studies in liver and skeletal muscle suggested the role of Src kinases in activating endoplasmic reticulum (ER) stress. The present study aimed to investigate the mechanism of Src kinases-ER stress in mediating the progression of DKD. Method Type 1 diabetes was induced by a single 60 mg/kg i.p injection of streptozotocin (STZ) in 7-week-old male, Sprague-Dawley rats. Diabetic rats received 8-week-treatment of either KF-1607 (30 mg/kg/day), a pharmacological inhibitor of SFKs, or losartan (1 mg/kg/day), a standard treatment for patients with DKD. Results Among SFKs, Fyn and Lyn kinases were particularly increased in the diabetic kidney. Inhibition of Src kinases by KF-1607 improved kidney function and inhibited tubular injury, presented by decreased serum creatinine, albuminuria, and urinary KIM-1 excretion. Pathological changes in the kidney, such as enhanced glomerular volume, tuft area, and fractional mesangial area, were ameliorated in KF-treated rats. Highly-accumulated collagen network as well as increased TGF-β and α-SMA mRNA levels in the diabetic kidney were also significantly reduced in response to KF treatment. Furthermore, it consistently attenuated kidney inflammation and oxidative stress. The renoprotective effects of KF were interestingly similar to those of losartan. We showed increases in protein levels of phosphorylated IRE-1α, ATF6, GRP78 as well as CHOP indicating an exacerbated ER stress in the diabetic kidney. These ER stress markers were significantly decreased in KF treated mice. Conclusion Altogether, Src kinases through activation of ER stress aggravates kidney injury in STZ-induced diabetic rats.


Oncotarget ◽  
2019 ◽  
Vol 10 (22) ◽  
pp. 2236-2236
Author(s):  
Roelants Caroline ◽  
Giacosa Sofia ◽  
Pillet Catherine ◽  
Bussat Remi ◽  
Champelovier Pierre ◽  
...  

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