IGF-1 increases macrophage motility via PKC/p38-dependent alphavbeta3-integrin inside-out signaling.

UNLABELLED: Macrophage migration is a key aspect in the initiation and progression of atherosclerosis. Insulin-like growth factor (IGF)-1 is highly expressed in macrophages in human atheroma. Its function in macrophage motility, however, remains to be elucidated. The aim of this study was to investigate the impact of IGF-1 on macrophage migration, its signaling pathways and the involvement of integrins and/or matrix metalloproteinases (MMPs). RESULTS: Migration checker-box experiments demonstrated that IGF-1 induced chemotaxis in human THP-1/macrophages. IGF-1 induced migration was inhibited by RGD-containing peptides and the alphavbeta3-blocking antibody LM609, but was unaffected by the MMP-inhibitor GM6001. Immunoblotting demonstrated that IGF-1 did not affect the activation of MMPs or TIMPs, nor did it increase alphav-integrin protein levels. However, IGF-1 induced recruitment of alphavbeta3, as well as trans-location of the integrin adaptor protein phospho-paxillin to focal adhesion sites. Pharmacological blocking experiments with specific inhibitors of Akt, PKC and p38 MAP-kinase revealed that IGF-1-dependent activation of focal adhesion kinase (FAK) and paxillin, and consecutively IGF-1 facilitated migration, required IGF-1/IGF-1R-mediated PI3-kinase/PKC/p38-dependent integrin inside-out signaling. CONCLUSION: IGF-1 plays a vital role in macrophage migration critically implicated in tissue inflammation. This involves activation of integrins and focal adhesion formation via inside-out PI3-kinase/PKC/p38-dependent signaling, but does not require MMP activation.

Proprotein convertase subtilisin/kexin type 3 promotes adipose tissue-driven macrophage chemotaxis and is increased in obesity.

BACKGROUND: Matrix metalloproteinase (MMP)-dependent extracellular matrix (ECM) remodeling is a key feature in cardiometabolic syndrome-associated adipogenesis and atherosclerosis. Activation of membrane-tethered (MT) 1-MMP depends on furin (PCSK3). However, the regulation and function of the natural furin-inhibitor serpinB8 and thus furin/MT1-MMP-activity in obesity-related tissue inflammation/remodeling is unknown. Here we aimed to determine the role of serpinB8/furin in obesity-associated chronic inflammation. METHODS AND RESULTS: Monocyte → macrophage transformation was characterized by decreases in serpinB8 and increases in furin/MT1-MMP. Rescue of serpinB8 by protein overexpression inhibited furin-dependent pro-MT1-MMP activation in macrophages, supporting its role as a furin-inhibitor. Obese white adipose tissue-facilitated macrophage migration was inhibited by furin- and MMP-inhibition, stressing the importance of the furin-MMP axis in fat tissue inflammation/remodeling. Monocytes from obese patients (body mass index (BMI) >30kg/m(2)) had higher furin, MT1-MMP, and resistin gene expression compared to normal weight individuals (BMI<25kg/m(2)) with significant correlations of BMI/furin and furin/MT1-MMP. In vitro, the adipocytokine resistin induced furin and MT1-MMP in mononuclear cells (MNCs), while MCP-1 had no effect. CONCLUSIONS: Acquisition of the inflammatory macrophage phenotype is characterized by an imbalance in serpinB8/furin, leading to MT1-MMP activation, thereby enhancing migration. Increases in MT1-MMP and furin are present in MNCs from obese patients. Dissecting the regulation of furin and its inhibitor serpinB8 should facilitate targeting inflammation/remodeling in cardiometabolic diseases.

Integrin cleavage regulates bidirectional signalling in vascular smooth muscle cells.

Integrins link the cytoskeleton to the extracellular matrix, providing outside-in/inside-out signalling essential for vascular smooth muscle cell (VSMC) migration in atherosclerosis. The integrin av subunit is synthesised from its precursor via furin-dependent endoproteolytic cleavage. Furin is a proprotein convertase (PC) highly expressed in VSMCs and in human atherosclerotic lesions. Inhibition of av processing inhibits binding to vitronectin and migration. However, the precise role of furin-dependent av cleavage on integrin bidirectional signalling and subsequent VSMC functions is unknown. Our present study demonstrates that the furin-like PC inhibitor decanoyl-RVKR-chloromethylketone (dec-CMK) inhibited av cleavage. This reduced vitronectin-induced (outside-in) focal adhesion kinase (FAK)- and paxillin-phosphorylation, and VSMC motility. Inside-out-stimulated, integrin- mediated VSMC adhesion/migration relied on integrin-adaptor protein activation following protein kinase C (PKC) and ERK1/2 phosphorylation. In contrast to outside-in signalling, PKC-dependent phosphorylation of FAK and paxillin was unaffected by the status of integrin cleavage. Still, cytoskeleton and focal adhesion site rearrangements were modulated by the inhibition of furin-dependent integrin cleavage, thereby lessening inside-out dependent migration. Hence, we find that integrin bidirectional signalling is critically controlled by furin. Furin- dependent integrin processing modulates rapid adaptive integrin/cytoskeleton changes, essential to VSMC motility, which represents a crucial component in atherosclerosis and restenosis.

Chronic treatment with losartan results in sufficient serum levels of the metabolite EXP3179 for PPARgamma activation.

The losartan metabolite EXP3174 exhibits angiotensin II receptor 1 (AT1R)-blocking properties, whereas the metabolite EXP3179 potently induces the activity of the insulin-sensitizing peroxisome proliferator-activated receptor gamma (PPARgamma) as a partial agonist in vitro. We investigated whether chronic treatment with losartan leads to sufficient serum levels of EXP3179 to activate PPARgamma in monocytes derived from losartan-treated patients. Hypertensive patients (n=15) treated with losartan (100 mg/daily for at least the past 2 months) and untreated control patients (n=7) were included. Monocytes were extracted by negative isolation using a Dynal Monocyte Kit, followed by analysis of PPARgamma target gene expression (CD36, ABC transporter G1 [ABCG1]) by quantitative real-time RT-PCR. Serum was prepared before, 2, 4, and 6 hours after losartan (100 mg) ingestion for HPLC-based determination of losartan, EXP3174, and EXP3179. Chronic treatment with losartan resulted in basal levels of losartan, EXP3174, and EXP3179 of 348.3+/-101.8 ng/mL, 115.3+/-56.1 ng/mL, and 176.2+/-143.4 ng/mL, respectively. Levels of both EXP3174 and EXP3179 were time-dependently increased in serum with a maximum 2 hours after drug intake (1706.0+/-760.1 ng/mL, 808.9+/-618.2 ng/mL, respectively). In consonance with detectable PPARgamma-activating EXP3179 serum levels, monocytic PPARgamma target gene expression was significantly upregulated in patients treated with losartan by 3.75+/-0.95- and 252.02+/-46.86-fold for CD36 and ABCG1 (P=0.043, P=0.0045 versus control patients, respectively). This is the first clinical description of monocytic PPARgamma-target gene regulation by chronic treatment with losartan, which likely is mediated by its metabolite EXP3179. Our data show that sufficient serum levels of EXP3179 are present under losartan treatment. PPARgamma activation by AT1R-blockers may translate into synergistic beneficial actions in monocytes.