Maud Jost

Contribution of host MMP-2 and MMP-9 to promote tumor vascularization and invasion of malignant keratinocytes

The matrix metalloproteinases (MMPs) play a key role in normal and pathological angiogenesis by mediating extracellular matrix degradation and/or controlling the biological activity of growth factors, chemokines, and/or cytokines. Specific functions of individual MMPs as anti‐ or proangiogenic mediators remain to be elucidated. In the present study, we assessed the impact of single or combined MMP deficiencies in in vivo and in vitro models of angiogenesis (malignant keratinocyte transplantation and the aortic ring assay, respectively). MMP‐9 was predominantly expressed by neutrophils in tumor transplants, whereas MMP‐2 and MMP‐3 were stromal. Neither the single deficiency of MMP‐2, MMP‐3, or MMP‐9, nor the combined absence of MMP‐9 and MMP‐3 did impair tumor invasion and vascularization in vivo. However, there was a striking cooperative effect in double MMP‐2:MMP‐9‐deficient mice as demonstrated by the absence of tumor vascularization and invasion. In contrast, the combined lack of MMP‐2 and MMP‐9 did not impair the in vitro capillary outgrowth from aortic rings. These results point to the importance of a cross talk between several host cells for the in vivo tumor promoting and angiogenic effects of MMP‐2 and MMP‐9. Our data demonstrate for the first time in an experimental model that MMP‐2 and MMP‐9 cooperate in promoting the in vivo invasive and angiogenic phenotype of malignant keratinocytes.

MMP-2 and MMP-9 synergize in promoting choroidal neovascularization

Matrix metalloproteinase 2 (MMP‐2) and MMP‐9 are increased in human choroidal neovascularization (CNV) occurring during the exudative most aggressive form of age‐related macular degeneration (AMD), but their precise role and potential interactions remain unclear. To address the question of MMP‐2 and MMP‐9 functions, mice deficient in the expression of MMP‐ 2 (MMP‐2 KO), MMP‐9 (MMP‐9 KO), and both MMP‐2 and MMP‐9 (MMP‐2,9 KO) with their corresponding wild‐type mice (WT) underwent CNV induction by laser‐induced rupture of the Bruchs membrane. Both the incidence and the severity of CNV were strongly attenuated in double deficient compared with single gene deficient mice or corresponding WT controls. The reduced neovascularization was accompanied by fibrinogen/fibrin accumulation. Furthermore, overexpression of the endogenous MMP inhibitors TIMP‐1 or TIMP‐2 (delivered by adenoviral vectors) in WT mice or daily injection of a synthetic and gelatinase selective MMP inhibitor (Ro 26‐2853) significantly decreased the pathological reaction. These findings suggest that MMP‐2 and MMP‐9 may cooperate in the development of AMD and that their selective inhibition represents an alternative strategy for the treatment of choroidal neovascularization.

Host-derived plasminogen activator inhibitor-1 (PAI-1) concentration is critical for in vivo tumoral angiogenesis and growth

Plasminogen activator inhibitor type 1 (PAI-1) plays a key role in tumor progression and is believed to control proteolytic activity and cell migration during angiogenesis. We report here that host PAI-1, at physiological concentration, promotes in vivo tumor invasion and angiogenesis. In sharp contrast, inhibition of tumor vascularization was observed when PAI-1 was produced at supraphysiologic levels, either by host cells (transgenic mice overexpressing PAI-1) or by tumor cells (after transfection with murine PAI-1 cDNA). This study provides for the first time in vivo evidence for a dose-dependent effect of PAI-1 on tumor angiogenesis. Of great interest is the finding that PAI-1 produced by tumor cells, even at high concentration, did not overcome the absence of PAI-1 in the host, emphasizing the importance of the cellular source of PAI-1.

Role of plasminogen activator-plasmin system in tumor angiogenesis

Abstract: New blood formation or angiogenesis has become a key target in therapeutic strategies aimed at inhibiting tumor growth and other diseases associated with neovascularization. Angiogenesis is associated with important extracellular remodeling involving different proteolytic systems among which the plasminogen system plays an essential role. It belongs to the large serine proteinase family and can act directly or indirectly by activating matrix metalloproteinases or by liberating growth factors and cytokines sequestered within the extracellular matrix. Migration of endothelial cells is associated with significant upregulation of proteolysis and, conversely, immunoneutralization or chemical inhibition of the system reduces angiogenesis in vitro. On the other hand, genetically altered mice developed normally without overt vascular anomalies indicating the possibility of compensation by other proteases in vivo. Nevertheless, they have in some experimental settings revealed unanticipated roles for previously characterized proteinases or their inhibitors. In this review, the complex mechanisms of action of the serine proteases in pathological angiogenesis are summarized alongside possible therapeutic applications.

Membrane associated proteases and their inhibitors in tumour angiogenesis

Cell surface proteolysis is an important mechanism for generating biologically active proteins that mediate a range of cellular functions and contribute to biological processes such as angiogenesis. Although most studies have focused on the plasminogen system and matrix metalloproteinases (MMPs), recently there has been an increase in the identification of membrane associated proteases, including serine proteases, ADAMs, and membrane-type MMPs (MT-MMPs). Normally, protease activity is tightly controlled by tissue inhibitors of MMPs (TIMPs) and plasminogen activator inhibitors (PAIs). The balance between active proteases and inhibitors is thought to determine the occurrence of proteolysis in vivo. High concentrations of proteolytic system components correlate with poor prognosis in many cancers. Paradoxically, high (not low) PAI-1 or TIMP concentrations predict poor survival in patients with various cancers. Recent observations indicate a much more complex role for protease inhibitors in tumour progression and angiogenesis than initially expected. As knowledge in the field of protease biology has improved, the unforeseen complexities of cell associated enzymes and their interaction with physiological inhibitors have emerged, often revealing unexpected mechanisms of action.

Matrix Metalloproteinase-9 Contributes to Choroidal Neovascularization

Age-related macular degeneration (AMD) is the primary cause of irreversible photoreceptors loss in adult patients and current therapies are limited. Increased levels of matrix metalloproteinases (MMPs) have been documented in neovascularization of severe ocular pathologies such as AMD and proliferative diabetic retinopathy. We report here that MMP-9 (gelatinase B) expression is induced and temporally regulated in the course of experimental choroidal neovascularization. We used transgenic mice expressing beta-galactosidase reporter gene under the dependence of MMP-9 promoter and RT-PCR analysis on choroidal neovascular structures microdissected from serial sections by laser pressure catapulting to show that MMP-9 expression is up-regulated concomitantly with the appearance of inflammatory cells in the subretinal lesion. In mice deficient in MMP-9 expression the development of choroidal neovascularization induced by laser photocoagulation still occurred, but at a reduced level.

Earlier Onset of Tumoral Angiogenesis in Matrix Metalloproteinase-19–Deficient Mice

Among matrix metalloproteinases (MMP), MMP-19 displays unique structural features and tissue distribution. In contrast to most MMPs, MMP-19 is expressed in normal human epidermis and down-regulated during malignant transformation and dedifferentiation. The contribution of MMP-19 during tumor angiogenesis is presently unknown. In an attempt to give new insights into MMP-19 in vivo functions, angiogenic response of mutant mice lacking MMP-19 was analyzed after transplantation of murine malignant PDVA keratinocytes and after injection of Matrigel supplemented with basic fibroblast growth factor. In situ hybridization and immunohistochemical analysis revealed that MMP-19 is produced by host mesenchymal cells but not by endothelial capillary cells or CD11b-positive inflammatory cells. Based on a new computer-assisted method of quantification, we provide evidence that host MMP-19 deficiency was associated with an increased early angiogenic response. In addition, increased tumor invasion was observed in MMP-19-/- mice. We conclude that, in contrast to most MMPs that promote tumor progression, MMP-19 is a negative regulator of early steps of tumor angiogenesis and invasion. These data highlight the requirement to understand the individual functions of each MMP to improve anticancer strategies.

Inhibition of ovulation by administration of estetrol in combination with drospirenone or levonorgestrel: Results of a phase II dose-finding pilot study

Abstract Objectives The aim of the study was to evaluate the efficacy of different dosages of estetrol (E4) combined with one of two progestins in suppressing the pituitary–ovarian axis and ovulation in healthy premenopausal women. Methods This was an open, parallel, phase II, dose-finding, pilot study performed in healthy women aged 18 to 35 years with a documented ovulatory cycle before treatment. For three consecutive cycles in a 24/4-day regimen, participants received 5 mg or 10 mg E4/3 mg drospirenone (DRSP); 5 mg, 10 mg or 20 mg E4/150 μg levonorgestrel; or 20 μg ethinylestradiol (EE)/3 mg DRSP as comparator. Pituitary–ovarian axis activity and the occurrence of ovulation were evaluated by monitoring follicular size, serum levels of follicle-stimulating hormone, luteinising hormone, estradiol and progesterone during treatment cycles 1 and 3. Endometrial thickness was evaluated throughout the trial, and the return of ovulation was evaluated after the last intake of medication. Results A total of 109 women were included in the trial. No ovulation occurred in any treatment group. Ovarian activity inhibition seemed proportional to the E4 dosage: the highest suppression was observed in the 20 mg E4 group and was very similar to that observed with EE/DRSP. Endometrial thickness was suppressed to the same extent in all groups. Post-treatment ovulation occurred in all participants between 17 and 21 days after the last active treatment. The study combinations were well tolerated and safe. Conclusions Combined with a progestin, E4 adequately suppresses ovarian activity, particularly when given at a dosage above 10 mg/day. Chinese Abstract 摘要 目的 这项研究的目的是评估不同剂量的雌四醇联合两种孕激素中的其中一种对垂体-卵巢轴以及健康的绝经前妇女的排卵方面的抑制疗效。 方法 这是一个在18到35岁的健康女性中进行的开放的、平行的，关于II期药物剂量探索的初步研究，这些女性均有治疗前的排卵周期记录。连续三个周期的24/4-天方案,参与者接受5毫克或10毫克的雌四醇/3毫克屈螺酮;5毫克,10毫克或20毫克的雌四醇/150 μg左炔诺孕酮;或用20 μg炔雌醇/3毫克屈螺酮作比较。在第1和第3个治疗周期，通过监测卵泡的大小,血清促卵泡激素、黄体生成素、雌二醇和孕激素的水平对垂体-卵巢轴的活动和排卵进行评估。对子宫内膜厚度的评估贯穿于整个试验过程中，对排卵抑制的评估在用完药物之后。 结果 总共有109名妇女参与试验。任何一个治疗组都没有出现排卵。对卵巢活动的抑制似乎与雌四醇的剂量成正比：最严重的抑制出现在20毫克的雌四醇组，与在炔雌醇/屈螺酮组观察到的情况非常相似。所有组的子宫内膜厚度的抑制程度是相同的。在最后一次积极治疗后的第17到21天之间，所有参与者均出现了治疗后的排卵。所有的试验组合均有良好的耐受性和安全性。 结论 雌四醇联合一种雌激素能够充分的抑制卵巢活动，尤其是当雌四醇的剂量大于10毫克/天的时候。 关键词 雌四醇；雌激素；口服避孕药；排卵抑制；孕激素

In Vitro and In Vivo Models of Angiogenesis to Dissect MMP Functions

Angiogenesis and lymphangiogenesis, the formation of new blood and lymphatic vessels from preexisting ones, are important processes associated with cancer growth and metastatic dissemination. It has become clear that matrix metalloproteinases contribute more to angiogenesis than by just degrading matrix components. They are capable to process a large array of extracellular and cell-surface proteins, and they contribute both in the onset and in the maintenance of angiogenesis. Their implication during lymphangiogenesis is expected, but not yet documented. This chapter describes in vitro and in vivo models which have proven suitability for investigating each step of (lymph)angiogenic processes. Their rationale and limitation is discussed and emerging functions of matrix metalloproteinases are reviewed.

The Surface Transplantation Model to Study the Tumor–Host Interface

The tumor is a complex system comprising neoplastic genetically altered cells and a tumor stroma composed of remodeled extracellular matrix, newly formed vessels, and infiltrating host cells. The development of a cancer is a progressive multistep process in which neoplastic cells progress to malignancy by activating their microenvironment and by responding to the tumor-supporting cues of the surrounding tissue. Because of the recently recognized importance of a permissive stroma for tumor development and invasion, the host compartment is now viewed as an interesting new target for tumor therapy. Among positive regulators contributing to the elaboration of this permissive stroma are growth factors, cytokines/chemokines, proteases, and their inhibitors. The present review summarizes what we learned during the last decade on the contribution of these factors at the tumor–host interface by exploiting a useful in vivo surface transplantation model of skin carcinomas.