Dysregulated Serum Lipid Metabolism Promotes the Occurrence and Development of Diabetic Retinopathy Associated With Upregulated Circulating Levels of VEGF-A, VEGF-D, and PlGF

Purpose: This study aims to explore the correlations of arteriosclerosis-associated plasma indices with various severity levels of diabetic retinopathy (DR) and to test the hypothesis that elevated circulating level of known angiogenic cytokines induced by hyperglycemia is associated with dyslipidemia on DR.Methods: This cross-sectional study consists of 131 patients with type 2 diabetes. The patients were categorized based on their DR status into those with no DR (diabetes mellitus, DM), non-proliferative diabetic retinopathy (NPDR), and proliferative diabetic retinopathy (PDR) groups. The biochemical profile including fasting glucose, glycated hemoglobin (HbA1c), lipid profile were estimated, plasma angiogenic cytokines (vascular endothelial growth factor, VEGF-A, -C, -D) and placental growth factor (PlGF) were analyzed by protein microarrays. The atherogenic plasma index (API) was defined as low-density lipoprotein cholesterol/high-density lipoprotein cholesterol (LDL-C/HDL-C); atherogenic index (AI) was calculated as (TC-(HDL-C))/HDL-C and atherogenic index of plasma (AIP) was defined as log (TG/HDL-C).Results: No significant differences were detected in the duration of hypertension, age, and gender between the three groups. Serum TC and LDL-C, AI, and API in the NPDR group and PDR group were significantly higher than those in the DM group. The circulating level of PlGF, VEGF-A, and VEGF-C were significantly correlated with the severity of DR. VEGF-D is a risk factor independent of API (Z = −2.61, P = 0.009) and AI (Z = −2.40, P = 0.016). Multivariate logistic regression showed that AI and API are strong risk factors for the occurrence and severity of DR. Associated with AI and API, VEGF-D and PlGF contribute to DR: VEGF-D [AI: P = 0.038, odd ratio (OR) = 1.38; VEGF-D: P = 0.002, OR = 1.00. API: P = 0.027, OR = 1.56, VEGF-D:P = 0.002, OR = 1.00] and PlGF [AI: P = 0.021, OR = 1.43; VEGF-D: P = 0.004, OR = 1.50. API: P = 0.011, OR = 1.66; VEGF-D: P = 0.005, OR = 1.49].Conclusions: Total cholesterol (TC) and LDL-C are risk factors for presence of any DR. Atherogenic index and API are novel and better predictive indicators for the occurrence and severity of DR in comparion with the traditional lipid profiles. Abnormal lipid metabolism are associated with the upregulation of circulating cytokines that are linked to the severity of DR.

Angiogenic potential of circulating blood neutrophils in endometrial cancer

Neutrophils play an important role in carcinogenesis, mediating inflammation, immunosuppression and metastasis. A dual role of neutrophils in regulation of angiogenesis has been shown. Endometrial cancer is the most common malignant neoplasm of the female reproductive system. To assess the cellular angiogenic potential, we determined the levels of inflammatory and angiogenic cytokines (VEGF-A, IL-17A, IL-1β, IL-6) in cell lysate of peripheral blood neutrophils in the patients with endometrial cancer, and with uterine myoma (comparison group). Expression of the nuclear factor-kB was determined. In nuclear fraction of neutrophils. The neutrophil-to-lymphocyte ratio (NLR) was assessed in the studied groups. Statistical processing of the obtained data was carried out using Statistica 10 software. We have not found any significant changes in NLR in endometrial cancer, compared with controls and the uterine myoma groups. Expression of NF-kB and VEGF was increased as compared to the control for all the studied stages of endometrial cancer and in uterine myoma. There was a change in NF-kB level in neutrophils, depending on the tumor differentiation grade. A regression relationship was found between the content of VEGF and NF-kB in neutrophils. We have found increased IL-1β and IL-6 levels in neutrophils of the uterine myoma patients, and at different stages of endometrial cancer compared with control. The IL-1β level was higher in neutrophils of the patients with intermediate and high tumor grade, compared to low-grade cases. IL-17A expression in the neutrophil lysate was significantly reduced in uterine myoma and at different stages of endometrial cancer, as compared with controls. There was a moderate inverse correlation between the contents of VEGF and IL-6 in neutrophils (r = -0.426, p = 0.001); a remarkable inverse relationship between VEGF and IL-17A (r = -0.615, p < 0.001). The combination of IL-6 and IL-17A levels in the neutrophils lysate (according to the results of multivariate analysis) may be used for the differential diagnosis of endometrial cancer and uterine myoma. Thus, the differences in the expression of inflammatory and angiogenic cytokines included in NF-kB-dependent signaling, may point to acquisition of pro-tumor functions by neutrophils during the endometrial cancer progression.

Interplay between IL-17 family members and angiogenic cytokines in subjects with systemic sclerosis.

IntroductionSystemic sclerosis (SSc) is a chronic, autoimmune connective tissue disease characterized by immune system activation, vasculopathy, and collagen accumulation. Despite progressive fibrosis of the vasculature, compensatory angiogenesis is impaired. The cause of the shift towards anti-angiogenesis observed in SSc is unknown. The IL-17 cytokine family participates in the pathogenesis of SSc and angiogenesis.Material and methodsOur study aimed to evaluate levels and find relationships between the levels of proangiogenic cytokines and cytokines from the IL-17 family in 42 SSc subjects and 20 healthy controls. VEGF, PlGF, HGF, TGFβ1, GM-CSF, IL-17A, IL-17B, IL-17E and IL-17F were quantified in the sera of all participants by ELISA sandwich kits.ResultsSignificantly higher mean concentrations of PlGF compared to controls - mean value (19.3 pg/ml in the SSc group vs. 11.4 pg/ml in the control group; p<0.001) and of HGF (1931 pg/ml in the SSc group vs. 1483 pg/ml in controls; p<0.05). Mean serum TGFβ1 level was also significantly lower in the SSc group (781 pg/ml) than controls (35991 pg/ml; p<0.001). Among the IL-17 family, significantly higher mean concentrations of IL-17B (67.0 pg/ml vs. 2.6 pg/ml in controls; p<0,001), IL-17E (8.0 pg/ml vs 0.64 pg/ml in controls; p<0.001) and IL-17F (0.42 pg/ml vs. 0.0 pg/ml in controls; p< 0.01) were detected. Serum concentrations of HGF and PlGF correlated with the concentrations of IL17A, IL-17B, and IL-17E.ConclusionsIn conclusion, our findings indicate that selected cytokines from the IL17 family participate in the pathogenesis of SSc and are responsible for the vascular abnormalities associated with this disorder.

Selective mediation of ovarian cancer SKOV3 cells death by pristine carbon quantum dots/Cu2O composite through targeting matrix metalloproteinases, angiogenic cytokines and cytoskeleton

It was shown that some nanomaterials may have anticancer properties, but lack of selectivity is one of challenges, let alone selective suppression of cancer growth by regulating the cellular microenvironment. Herein, we demonstrated for the first time that carbon quantum dots/Cu2O composite (CQDs/Cu2O) selectively inhibited ovarian cancer SKOV3 cells by targeting cellular microenvironment, such as matrix metalloproteinases, angiogenic cytokines and cytoskeleton. The result was showed CQDs/Cu2O possessed anticancer properties against SKOV3 cells with IC50 = 0.85 μg mL−1, which was approximately threefold lower than other tested cancer cells and approximately 12-fold lower than normal cells. Compared with popular anticancer drugs, the IC50 of CQDs/Cu2O was approximately 114-fold and 75-fold lower than the IC50 of commercial artesunate (ART) and oxaliplatin (OXA). Furthermore, CQDs/Cu2O possessed the ability to decrease the expression of MMP-2/9 and induced alterations in the cytoskeleton of SKOV3 cells by disruption of F-actin. It also exhibited stronger antiangiogenic effects than commercial antiangiogenic inhibitor (SU5416) through down-regulating the expression of VEGFR2. In addition, CQDs/Cu2O has a vital function on transcriptional regulation of multiple genes in SKOV3 cells, where 495 genes were up-regulated and 756 genes were down-regulated. It is worth noting that CQDs/Cu2O also regulated angiogenesis-related genes in SKOV3 cells, such as Maspin and TSP1 gene, to suppress angiogenesis. Therefore, CQDs/Cu2O selectively mediated of ovarian cancer SKOV3 cells death mainly through decreasing the expression of MMP-2, MMP-9, F-actin, and VEGFR2, meanwhile CQDs/Cu2O caused apoptosis of SKOV3 via S phase cell cycle arrest. These findings reveal a new application for the use of CQDs/Cu2O composite as potential therapeutic interventions in ovarian cancer SKOV3 cells.

Selective mediation of ovarian cancer SKOV3 cells death by pristine carbon quantum dots/Cu2O composite through targeting matrix metalloproteinases, angiogenic cytokines and cytoskeleton

It was shown that some nanomaterials may have anticancer properties, but lack of selectivity is one of challenges, let alone selective suppression of cancer growth by regulating the cellular microenvironment. Herein, we demonstrated for the first time that carbon quantum dots/Cu 2 O composite (CQDs/Cu 2 O) selectively inhibited ovarian cancer SKOV3 cells by targeting cellular microenvironment, such as matrix metalloproteinases, angiogenic cytokines and cytoskeleton. The result was showed CQDs/Cu 2 O possessed anticancer properties against SKOV3 cells with IC 50 = 0.85 μg mL −1 , which was approximately 3-fold lower than other tested cancer cells and approximately 12-fold lower than normal cells. Compared with popular anticancer drugs, the IC 50 of CQDs/Cu 2 O was approximately 114-fold and 75-fold lower than the IC 50 of commercial artesunate (ART) and oxaliplatin (OXA). Furthermore, CQDs/Cu 2 O possessed the ability to decrease the expression of MMP-2/9 and induced alterations in the cytoskeleton of SKOV3 cells by disruption of F-actin. It also exhibited stronger antiangiogenic effects than commercial antiangiogenic inhibitor (SU5416) through down-regulating the expression of VEGFR2. In addition, CQDs/Cu 2 O has a vital function on transcriptional regulation of multiple genes in SKOV3 cells, where 495 genes were up-regulated and 756 genes were down-regulated. It is worth noting that CQDs/Cu 2 O also regulated angiogenesis-related genes in SKOV3 cells, such as Maspin and TSP1 gene, to suppress angiogenesis. Therefore, CQDs/Cu 2 O selectively mediated of ovarian cancer SKOV3 cells death mainly through decreasing the expression of MMP-2, MMP-9, F-actin, and VEGFR2, meanwhile CQDs/Cu 2 O caused apoptosis of SKOV3 via S phase cell cycle arrest. These findings reveal a new application for the use of CQDs/Cu 2 O composite as potential therapeutic interventions in ovarian cancer SKOV3 cells.It was shown that some nanomaterials may have anticancer properties, but lack of selectivity is one of challenges, let alone selective suppression of cancer growth by regulating the cellular microenvironment. Herein, we demonstrated for the first time that carbon quantum dots/Cu 2 O composite (CQDs/Cu 2 O) selectively inhibited ovarian cancer SKOV3 cells by targeting cellular microenvironment, such as matrix metalloproteinases, angiogenic cytokines and cytoskeleton. The result was showed CQDs/Cu 2 O possessed anticancer properties against SKOV3 cells with IC 50 = 0.85 μg mL −1 , which was approximately 3-fold lower than other tested cancer cells and approximately 12-fold lower than normal cells. Compared with popular anticancer drugs, the IC 50 of CQDs/Cu 2 O was approximately 114-fold and 75-fold lower than the IC 50 of commercial artesunate (ART) and oxaliplatin (OXA). Furthermore, CQDs/Cu 2 O possessed the ability to decrease the expression of MMP-2/9 and induced alterations in the cytoskeleton of SKOV3 cells by disruption of F-actin. It also exhibited stronger antiangiogenic effects than commercial antiangiogenic inhibitor (SU5416) through down-regulating the expression of VEGFR2. In addition, CQDs/Cu 2 O has a vital function on transcriptional regulation of multiple genes in SKOV3 cells, where 495 genes were up-regulated and 756 genes were down-regulated. It is worth noting that CQDs/Cu 2 O also regulated angiogenesis-related genes in SKOV3 cells, such as Maspin and TSP1 gene, to suppress angiogenesis. Therefore, CQDs/Cu 2 O selectively mediated of ovarian cancer SKOV3 cells death mainly through decreasing the expression of MMP-2, MMP-9, F-actin, and VEGFR2, meanwhile CQDs/Cu 2 O caused apoptosis of SKOV3 via S phase cell cycle arrest. These findings reveal a new application for the use of CQDs/Cu 2 O composite as potential therapeutic interventions in ovarian cancer SKOV3 cells.

Targeting the Endothelin-1 Receptors Curtails Tumor Growth and Angiogenesis in Multiple Myeloma

The endothelin-1 (ET-1) receptors were recently found to mediate pro-survival functions in multiple myeloma (MM) cells in response to autocrine ET-1. This study investigated the effectiveness of macitentan, a dual ET-1 receptor antagonist, in MM treatment, and the mechanisms underlying its activities. Macitentan affected significantly MM cell (RPMI-8226, U266, KMS-12-PE) survival and pro-angiogenic cytokine release by down-modulating ET-1-activated MAPK/ERK and HIF-1α pathways, respectively. HIF-1α silencing abrogated the ET-1 mediated induction of genes encoding for pro-angiogenic cytokines such as VEGF-A, IL-8, Adrenomedullin, and ET-1 itself. Upon exposure to macitentan, MM cells cultured in the presence of the hypoxia-mimetic agent CoCl2, exogenous ET-1, or CoCl2 plus ET-1, down-regulated HIF-1α and the transcription and release of downstream pro-angiogenic cytokines. Consistently, macitentan limited significantly the basal pro-angiogenic activity of RPMI-8226 cells in chorioallantoic membrane assay. In xenograft mouse models, established by injecting NOG mice either via intra-caudal vein with U266 or subcutaneously with RPMI-8226 cells, macitentan reduced effectively the number of MM cells infiltrating bone marrow, and the size and microvascular density of subcutaneous MM tumors. ET-1 receptors targeting by macitentan represents an effective anti-proliferative and anti-angiogenic therapeutic approach in preclinical settings of MM.

Selective Mediation of Ovarian Cancer Cell Death by Pristine Carbon Quantum Dots/Cu2O Composite Through Targeting Matrix Metalloproteinases, Angiogenic Cytokines and Cytoskeleton

It was shown that some nanomaterials may have anticancer properties, but lack of selectivity is one of challenges, let alone selective suppression of cancer growth by regulating the cellular microenvironment. Herein, we demonstrated for the first time that carbon quantum dots/Cu2O composite (CQDs/Cu2O) selectively inhibited ovarian cancer SKOV3 cells by targeting cellular microenvironment, such as matrix metalloproteinases, angiogenic cytokines and cytoskeleton. The result was showed CQDs/Cu2O possessed anticancer properties against SKOV3 cells with IC50 = 0.85 μg mL−1, which was approximately 3-fold lower than that in normal mouse embryonic fibroblasts BABL-3T3 cells. Compared with popular anticancer drugs, the IC50 of CQDs/Cu2O was approximately 114-fold and 75-fold lower than the IC50 of commercial artesunate (ART) and oxaliplatin (OXA). Furthermore, CQDs/Cu2O possessed the ability to decrease the expression of MMP-2/9 and induced alterations in the cytoskeleton of SKOV3 cells by disruption of F-actin. It also exhibited stronger antiangiogenic effects than commercial antiangiogenic inhibitor (SU5416) through down-regulating the expression of VEGFR2. In addition, CQDs/Cu2O has a vital function on transcriptional regulation of multiple genes in SKOV3 cells, where 495 genes were up-regulated and 756 genes were down-regulated. It is worth noting that CQDs/Cu2O also regulated angiogenesis-related genes in SKOV3 cells, such as Maspin and TSP1 gene, to suppress angiogenesis. Therefore, CQDs/Cu2O selectively mediated of ovarian cancer cells death mainly through decreasing the expression of MMP-2, MMP-9, F-actin, and VEGFR2, meanwhile CQDs/Cu2O caused apoptosis of SKOV3 via S phase cell cycle arrest. These findings reveal a new application for the use of CQDs/Cu2O composite as potential therapeutic interventions in ovarian cancer.