Jan K. Jensen scite author profile

In recent decades, evidence has been accumulating showing the important role of urokinase-type plasminogen activator (uPA) in growth, invasion, and metastasis of malignant tumours. The evidence comes from results with animal tumour models and from the observation that a high level of uPA in human tumours is associated with a poor patient prognosis. It therefore initially came as a surprise that a high tumour level of the uPA inhibitor plasminogen activator inhibitor-I (PAI-I) is also associated with a poor prognosis, the PAI-I level in fact being one of the most informative biochemical prognostic markers. We review here recent investigations into the possible tumour biological role of PAI-I, performed by animal tumour models, histological examination of human tumours, and new knowledge about the molecular interactions of PAI-I possibly underlying its tumour biological functions. The exact tumour biological functions of PAI-I remain uncertain but PAI-I seems to be multifunctional as PAI-I is expressed by multiple cell types and has multiple molecular interactions. The potential utilisation of PAI-I as a target for anti-cancer therapy depends on further mapping of these functions.

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A potent complement factor C3–specific nanobody inhibiting multiple functions in the alternative pathway of human and murine complement

Jensen¹,

Pihl

Gadeberg³

et al. 2018

Journal of Biological Chemistry

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The complement system is a complex, carefully regulated proteolytic cascade for which suppression of aberrant activation is of increasing clinical relevance, and inhibition of the complement alternative pathway is a subject of intense research. Here, we describe the nanobody hC3Nb1 that binds to multiple functional states of C3 with subnanomolar affinity. The nanobody causes a complete shutdown of alternative pathway activity in human and murine serum when present in concentrations comparable with that of C3, and hC3Nb1 is shown to prevent proconvertase assembly, as well as binding of the C3 substrate to C3 convertases. Our crystal structure of the C3b-hC3Nb1 complex and functional experiments demonstrate that proconvertase formation is blocked by steric hindrance between the nanobody and an Asn-linked glycan on complement factor B. In addition, hC3Nb1 is shown to prevent factor H binding to C3b, rationalizing its inhibition of factor I activity. Our results identify hC3Nb1 as a versatile, inexpensive, and powerful inhibitor of the alternative pathway in both human and murine model systems of complement activation.

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Structural Basis for Recognition of Urokinase-type Plasminogen Activator by Plasminogen Activator Inhibitor-1

Lin

Jiang

Yuan

et al. 2011

Journal of Biological Chemistry

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Plasminogen activator inhibitor-1 (PAI-1), together with its physiological target urokinase-type plasminogen activator (uPA), plays a pivotal role in fibrinolysis, cell migration, and tissue remodeling and is currently recognized as being among the most extensively validated biological prognostic factors in several cancer types. PAI-1 specifically and rapidly inhibits uPA and tissuetype PA (tPA). Despite extensive structural/functional studies on these two reactions, the underlying structural mechanism has remained unknown due to the technical difficulties of obtaining the relevant structures. Here, we report a strategy to generate a PAI-1⅐uPA(S195A) Michaelis complex and present its crystal structure at 2.3-Å resolution. In this structure, the PAI-1 reactive center loop serves as a bait to attract uPA onto the top of the PAI-1 molecule. The P4 -P3 residues of the reactive center loop interact extensively with the uPA catalytic site, accounting for about two-thirds of the total contact area. Besides the active site, almost all uPA exosite loops, including the 37-, 60-, 97-, 147-, and 217-loops, are involved in the interaction with PAI-1. The uPA 37-loop makes an extensive interaction with PAI-1 ␤-sheet B, and the 147-loop directly contacts PAI-1 ␤-sheet C. Both loops are important for initial Michaelis complex formation. This study lays down a foundation for understanding the specificity of PAI-1 for uPA and tPA and provides a structural basis for further functional studies.

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The vitronectin binding area of plasminogen activator inhibitor‐1, mapped by mutagenesis and protection against an inactivating organochemical ligand

2002

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A distinguishing feature of serpins is their ability to undergo a conformational change consisting in insertion of the reactive centre loop (RCL) into L L-sheet A. In the serpin plasminogen activator inhibitor-1 (PAI-1), RCL movements are regulated by vitronectin, having a previously poorly defined binding site lateral to PAI-1's L L-sheet A. Using a novel strategy, based on identification of amino acid residues necessary for vitronectin protection of PAI-1 against inactivation by 4,4P Pdianilino-1,1P P-bisnaphthyl-5,5P P-disulfonic acid, we have defined a vitronectin binding surface spanning 10 residues between

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A slow-cycling subpopulation of melanoma cells with highly invasive properties

et al. 2017

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Melanoma is a heterogeneous tumor with different subpopulations showing different proliferation rates. Slow-cycling cells were previously identified in melanoma, but not fully biologically characterized. Using the label-retention method, we identified a subpopulation of slow-cycling cells, defined as label-retaining cells (LRC), with strong invasive properties. We demonstrate through live imaging that LRC are leaving the primary tumor mass at a very early stage and disseminate to peripheral organs. Through global proteome analyses, we identified the secreted protein SerpinE2/protease nexin-1 as causative for the highly invasive potential of LRC in melanomas.

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Jan K. Jensen

Plasminogen activator inhibitor-1 and tumour growth, invasion, and metastasis

A potent complement factor C3–specific nanobody inhibiting multiple functions in the alternative pathway of human and murine complement

Structural Basis for Recognition of Urokinase-type Plasminogen Activator by Plasminogen Activator Inhibitor-1

The vitronectin binding area of plasminogen activator inhibitor‐1, mapped by mutagenesis and protection against an inactivating organochemical ligand

A slow-cycling subpopulation of melanoma cells with highly invasive properties

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