Hypoxia-Inducible Factor-1α Expression in Macrophages Promotes Development of Atherosclerosis.

OBJECTIVE: Atherosclerotic lesions contain hypoxic areas, but the pathophysiological importance of hypoxia is unknown. Hypoxia-inducible factor-1α (HIF-1α) is a key transcription factor in cellular responses to hypoxia. We investigated the hypothesis that HIF-1α has effects on macrophage biology that promotes atherogenesis in mice. APPROACH AND RESULTS: Studies with molecular probes, immunostaining, and laser microdissection of aortas revealed abundant hypoxic, HIF-1α-expressing macrophages in murine atherosclerotic lesions. To investigate the significance of macrophage HIF-1α, Ldlr(-/-) mice were transplanted with bone marrow from mice with HIF-1α deficiency in the myeloid cells or control bone marrow. The HIF-1α deficiency in myeloid cells reduced atherosclerosis in aorta of the Ldlr(-/-) recipient mice by ≈72% (P=0.006).In vitro, HIF-1α-deficient macrophages displayed decreased differentiation to proinflammatory M1 macrophages and reduced expression of inflammatory genes. HIF-1α deficiency also affected glucose uptake, apoptosis, and migratory abilities of the macrophages. CONCLUSIONS: HIF-1α expression in macrophages affects their intrinsic inflammatory profile and promotes development of atherosclerosis.

Osteopontin deficiency dampens the pro-atherogenic effect of uraemia.

AIMS: Uraemia is a strong risk factor for cardiovascular disease. Osteopontin (OPN) is highly expressed in aortas of uraemic apolipoprotein E knockout (E KO) mice. OPN affects key atherogenic processes, i.e. inflammation and phenotypic modulation of smooth muscle cells (SMCs). We explored the role of OPN on vascular pathology in uraemic mice. METHODS AND RESULTS: Uraemia was induced by 5/6 nephrectomy in E KO and in OPN and E double KO mice (E/OPN KO). In E KO mice, uraemia increased the relative surface plaque area in the aortic arch (from 28 ± 2% [n = 15], to 37 ± 3% [n = 20] of the aortic arch area, P < 0.05). A positive correlation was observed between plasma OPN and aortic atherosclerosis in uraemic E KO mice (r(2) = 0.48, P = 0.001). In contrast, aortic atherosclerosis was not increased by uraemia in E/OPN KO mice. OPN deficiency in haematopoietic cells (including macrophages) did not affect development of uraemic atherosclerosis, even though OPN-deficient foam cells had decreased inflammatory capacity. Gene expression analyses indicated that uraemia de-differentiates SMCs in the arterial wall. This effect was dampened in whole-body OPN-deficient mice. CONCLUSION: The data suggest that OPN promotes development of uraemic atherosclerosis possibly by changing the phenotype of vascular smooth muscle cells.

Interaction between VEGF and calcium-independent phospholipase A2 in proliferation and migration of retinal pigment epithelium.

PURPOSE: Inhibition of VEGF in the eye is an important treatment modality for reducing proliferation and migration of retinal pigment epithelium (RPE) in age-related macular degeneration (AMD). Additionally, previous studies suggest calcium-independent phospholipase A(2) group VIA (iPLA(2)-VIA) to be a potential regulator of cell proliferation and migration, and evidence show abundant expression of iPLA(2)-VIA in RPE cells. The aim of the present study was to evaluate the potential role of iPLA(2)-VIA in VEGF-induced proliferation and migration of RPE cells. MATERIALS AND METHODS: The human RPE cell line, ARPE-19, was used in all assays. To explore the role of iPLA(2)-VIA in VEGF-induced RPE proliferation and migration, iPLA(2)-VIA inhibition by the iPLA(2)-VIA specific inhibitor, bromoenol lactone, was done. RPE cell proliferation and migration were evaluated by measurements of incorporated radioactive thymidine in DNA and by a Boyden chamber technique, respectively. A luciferase assay monitored the VEGF-induced iPLA(2)-VIA transcriptional activity. Western blot analysis and an activity assay were used to detect the protein levels and activity of iPLA(2)-VIA respectively after treatment with VEGF. RESULTS: RPE cells treated with VEGF showed significant increased proliferation and migration. Furthermore, inhibition of iPLA(2)-VIA significantly reduced the spontaneous proliferation and migration as well as the VEGF-induced proliferation and migration. Finally, inhibition of iPLA(2)-VIA reduced the VEGF-induced iPLA(2)-VIA-activity, -protein level, and -promoter activity. CONCLUSIONS: A significant interaction between VEGF and iPLA(2)-VIA in the regulation of RPE cells appears to be relevant in elucidating the exact mechanisms of action in the proliferative and migratory phenotype of RPE cells in AMD.

Hypoxia-induced secretion of macrophage migration-inhibitory factor from MCF-7 breast cancer cells is regulated in a hypoxia-inducible factor-independent manner.

The cytokine MIF is over-expressed in tumors and is associated with tumor proliferation, angiogenesis and metastasis. Hypoxia, a hallmark feature of tumors, increases MIF expression from tumor cells. We examined the role of hypoxia-inducible transcription factors on MIF secretion from MCF-7 breast carcinoma cells. Secretion of MIF was induced by hypoxia after 24h but up-regulation of MIF mRNA was minimal. Inhibition of HIF-1alpha, HIF-2alpha, NF-kappaB and C/EBPbeta using siRNA had no effect on hypoxia-induced MIF secretion. However, inhibition of transcription and translation significantly decreased MIF production, suggesting that hypoxia-induced secretion of MIF in MCF-7 cells is via an alternative pathway.

YKL-40 expression in benign and malignant lesions of the breast: a methodologic study.

Elevated serum levels of the protein YKL-40 are associated with a poor prognosis in patients with solid and hematologic malignancies including breast cancer. The aim of this study was to develop a valid reproducible immunohistochemical method to visualize YKL-40 expression in normal breast tissue as well as in benign and malignant breast lesions. The presence of YKL-40 in breast tissue was verified by in situ hybridization and protein extraction procedures. An immunohistochemical method was developed and 4 different antibodies directed against YKL-40 were tested. Ten patients with normal breast tissue and benign breast lesions and 53 patients with localized breast carcinomas were analyzed immunohistochemically. The presence of YKL-40 in normal epithelial cells as well as in malignant tumor cells of the breast was established; however, a difference in staining intensity and staining pattern was observed. In normal breast tissue, a weak YKL-40 immunoreactivity was found in the cytoplasm of the epithelial cells with an additional strong dotlike staining between the nucleus and the gland lumen. In malignant lesions, 81% of the in situ carcinomas and 64% of the invasive carcinomas showed strong diffuse cytoplasmic YKL-40 immunoreactivity. No nuclear and membrane staining was found. A subpopulation of cells of macrophage morphology in normal breast tissue and in malignant lesions showed strong YKL-40 immunoreactivity.

Angiopoietin-4 inhibits angiogenesis and reduces interstitial fluid pressure.

Angiopoietins (Ang) are involved in the remodeling, maturation, and stabilization of the vascular network. Ang-4 was discovered more recently; thus, its effect on angiogenesis and its interplay with other angiogenic factors have not been equivocally established. The role of Ang-4 in angiogenesis was tested in Matrigel chambers implanted into the subcutaneous space of nude mice. Ang-4 inhibited the angiogenic response of basic fibroblast growth factor (bFGF), vascular endothelial growth factor (VEGF), and GLC19 tumor cells. In Matrigel chambers with Ang-4-transfected cells, the mean response was significantly lower than that of mock cells. Subcutaneous tumor interstitial fluid pressure (IFP) was significantly lower in Ang-4-transfected GLC19 tumors than in mock-transfected tumors. IFP reduction in Ang-4-transfected tumors was comparable to the reduction seen after bevacizumab treatment. In vitro, we examined the effect of recombinant Ang-4 on endothelial cell migration in Boyden chambers. Human umbilical vein endothelial cell (HUVEC) migration induced by bFGF and VEGF was inhibited by Ang-4 to control levels. In conclusion, we show that rhAng-4, as well as transfection with Ang-4, inhibits angiogenesis induced by GLC19 tumor cells and that Ang-4 expression reduces elevated tumor IFP. In addition, we demonstrate that rhAng-4 inhibits HUVEC migration and growth factor-induced angiogenesis.

Expression of YKL-40 by peritumoral macrophages in human small cell lung cancer.

YKL-40 is a 40 kDa protein with possible involvement in tissue remodeling, cell proliferation and angiogenesis. Elevated serum YKL-40 levels in patients with metastatic cancers (including small cell lung cancer (SCLC)) are associated with poor prognosis. The aim of this study was to identify the cellular source of YKL-40 in SCLC patient biopsies and in a panel of 20 human SCLC lines cultured in vitro and in vivo in nude mice. In general, the SCLC cell lines had no or very limited (human) YKL-40 expression, whereas, by RT-PCR a pronounced murine (i.e., stromal) YKL-40 expression was present in all tumors. YKL-40 mRNA transcripts were detected by in situ hybridization in 9 of 10 biopsies from SCLC patients, and in each case the signal was localized in the peritumoral stroma in cells of typical macrophage morphology (confirmed by a CD68 macrophage specific stain). No YKL-40 mRNA expression was found in the cancer cells, in macrophages infiltrating the solid tumor areas, or in non-malignant tissue. In conclusion, the predominant source of elevated serum YKL-40 in SCLC is peritumoral macrophages.

Regulation of YKL-40 expression during genotoxic or microenvironmental stress in human glioblastoma cells.

YKL-40 is a 40 kDa secreted glycoprotein belonging to the family of 'mammalian chitinase-like proteins', but without chitinase activity. YKL-40 has a proliferative effect on fibroblasts, chondrocytes and synoviocytes, and chemotactic effect on endothelium and vascular smooth muscle cells. Elevated YKL-40 levels are found in serum of patients with diseases characterized by inflammation, fibrosis and tissue remodeling. Several studies have reported that high serum YKL-40 levels in patients with cancer are associated with poor prognosis. YKL-40 expression is strongly elevated in serum and biopsy material from glioblastomas patients. We investigated the expression of YKL-40 in three human malignant glioma cell lines exposed to different types of stress. Whereas a polymerase chain reaction transcript was detectable in all three cell lines, only U87 produced measurable amounts of YKL-40 protein. In U87, hypoxia and ionizing radiation induced a significant increase in YKL-40 after 24-48 h. The hypoxic induction of YKL-40 was independent of HIF1. Etoposide, ceramide, serum depletion and confluence all led to elevated YKL-40. Inhibition of p53 augmented the YKL-40 expression indicating that YKL-40 is attenuated by p53. In contrast, both basic fibroblast growth factor and tumor necrosing factor-alpha repressed YKL-40. These are the first data on regulation of YKL-40 in cancer cells. Diverse types of stress resulted in YKL-40 elevation, which strongly supports an involvement of YKL-40 in the malignant phenotype as a cellular survival factor in an adverse microenvironment.

Expression and regulation patterns of hyaluronidases in small cell lung cancer and glioma lines.

Hyaluronan and hyaluronidases have been proposed to be involved in tumor angiogenesis and invasion. Three hyaluronidases, HYAL1, HYAL2 and HYAL3, are located at the chromosomal region 3p21. In most small cell lung cancer (SCLC) lines the 3p21 region is part of a homozygote or heterozygote deletion. Gliomas are known to exist in a hyaluronan rich environment and express high levels of the hyaluronan receptor CD44. In a panel of SCLC and glioma cell lines the expression of HYAL1, HYAL2 and HYAL3 mRNA was examined. It was observed that the cell lines differed in their ability to splice out a retained intron in the 5' UTR of HYAL1 mRNA. A correlation seems to exist between the ability to splice out the retained 5' end intron of HYAL1 mRNA and the general hyaluronidase activity. In one cell line a substantial part of the hyaluronidase activity was abolished by immunoprecipitation of Hyal1, which strongly indicates that Hyal1 is the principal hyaluornidase in the examined cell lines. During severe hypoxia a significant reduction in both hyaluronidase mRNA and protein activity was found. These results support the theory of involvement of hyaluronidase in the angiogenic and invasive front of tumors.