Tina M Kousted scite author profile

Protease nexin-1 (PN-1) belongs to the serpin family of serine protease inhibitors. It is the phylogenetically closest relative of plasminogen activator inhibitor-1 (PAI-1). Whilst there are numerous studies of the occurrence and functions of PAI-1 in cancer, a possible tumour biological role of PN-1 has been almost totally neglected. We have now compared the level of PN-1 mRNA in 20 cases of oral squamous cell carcinomas and in matched samples of the corresponding normal oral tissues. We found that the average PN-1 mRNA level in tumours and normal tissues was significantly different, being increased up to 13 fold in tumour samples compared with the average level in normal tissues. The PN-1 mRNA level was significantly higher in tumours from patients with lymph node metastasis than in tumours from patients without. We could conclude that PN-1 is frequently overexpressed in oral squamous cell carcinomas and that its level may correlate with the occurrence of lymph node metastasis. We hypothesise that PN-1 may have a tumour biological function similar to that of PAI-1.

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Expression of plasminogen activator inhibitor‐1 and protease nexin‐1 in human astrocytes: Response to injury‐related factors

Hultman

Blomstrand

Nilsson

et al. 2010

J of Neuroscience Research

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Astrocytes play a diverse role in central nervous system (CNS) injury. Production of the serine protease inhibitors (serpins) plasminogen activator inhibitor-1 (PAI-1) and protease nexin-1 (PN-1) by astrocytes may counterbalance excessive serine protease activity associated with CNS pathologies such as ischemic stroke. Knowledge regarding the regulation of these genes in the brain is limited, so the objective of the present study was to characterize the effects of injury-related factors on serpin expression in human astrocytes. Native human astrocytes were exposed to hypoxia or cytokines, including interleukin-6 (IL-6), IL-1beta, tumor necrosis factor-alpha (TNF-alpha), IL-10, transforming growth factor-alpha (TGF-alpha), and TGF-beta for 0-20 hr. Serpin mRNA expression and protein secretion were determined by real-time RT-PCR and ELISA, respectively. Localization of PAI-1 and PN-1 in human brain tissue was examined by immunohistochemistry. Hypoxia and all assayed cytokines induced a significant increase in PAI-1 expression, whereas prolonged treatment with IL-1beta or TNF-alpha resulted in a significant down-regulation. The most pronounced induction of both PAI-1 and PN-1 was observed following early treatment with TGF-alpha. In contrast to PAI-1, the PN-1 gene did not respond to hypoxia. Positive immunoreactivity for PAI-1 in human brain tissue was demonstrated in reactive astrocytes within gliotic areas of temporal cortex. We show here that human astrocytes express PAI-1 and PN-1 and demonstrate that this astrocytic expression is regulated in a dynamic manner by injury-related factors.

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Three monoclonal antibodies against the serpin protease nexin-1 prevent protease translocation

Kousted¹,

Skjoedt²,

Petersen³

et al. 2014

Thromb Haemost

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Protease nexin-1 (PN-1) belongs to the serpin family and is an inhibitor of thrombin, plasmin, urokinase-type plasminogen activator, and matriptase. Recent studies have suggested PN-1 to play important roles in vascular-, neuro-, and tumour-biology. The serpin inhibitory mechanism consists of the serpin presenting its so-called reactive centre loop as a substrate to its target protease, resulting in a covalent complex with the inactivated enzyme. Previously, three mechanisms have been proposed for the inactivation of serpins by monoclonal antibodies: steric blockage of protease recognition, conversion to an inactive conformation or induction of serpin substrate behaviour. Until now, no inhibitory antibodies against PN-1 have been thoroughly characterised. Here we report the development of three monoclonal antibodies binding specifically and with high affinity to human PN-1. The antibodies all abolish the protease inhibitory activity of PN-1. In the presence of the antibodies, PN-1 does not form a complex with its target proteases, but is recovered in a reactive centre cleaved form. Using site-directed mutagenesis, we mapped the three overlapping epitopes to an area spanning the gap between the loop connecting α-helix F with β-strand 3A and the loop connecting α-helix A with β-strand 1B. We conclude that antibody binding causes a direct blockage of the final critical step of protease translocation, resulting in abortive inhibition and premature release of reactive centre cleaved PN-1. These new antibodies will provide a powerful tool to study the in vivo role of PN-1's protease inhibitory activity.

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Protease Nexin‐1 – a Serpin with a Possible Proinvasive Role in Cancer

Kousted

Jensen

Gao

et al. 2012

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Exploring the antigenic response to multiplexed immunizations in a chicken model of antibody production

Kousted

Kalliokoski

Christensen

et al. 2017

Heliyon

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Hens have a tremendous capacity for producing polyclonal antibodies that can subsequently be isolated in high concentrations from their eggs. An approach for further maximizing their potential is to produce multiple antisera in the same individual through multiplexed (multiple simultaneous) immunizations. An unknown with this approach is how many immunogens a single bird is capable of mounting a sizeable antigenic response toward. At what point does it become counter-productive to add more immunogens to the same immunization regimen?In the present study we were able to demonstrate that the competing effects of co-administering multiple immunogens effectively limit the antibody specificities that can be raised in a single individual to a fairly low number. Two potent model immunogens, KLH and CRM197, were administered together with competing antigens in various concentrations and complexities. With an upper limit of 1 mg protein material recommended for chicken immunizations, we found that the maximum number of immunogens that can be reliably used is most likely in the low double digits.The limiting factor for a response to an immunogen could not be related to the number of splenic plasma cells producing antibodies against it. When administering KLH alone, up to 70% of the IgY-producing splenic plasma cells were occupied with producing anti-KLH antibodies; but when simultaneously being exposed to a plethora of other antigens, a response of a comparable magnitude could be mounted with a splenic plasma cell involvement of less than 5%.Two breeds of egg-layers were compared with respect to antibody production in an initial experiment, but differences in antibody productivity were negligible.Although our findings support the use of multiplexed immunizations in the hen, we find that the number of immunogens cannot be stretched much higher than the handful that has been used in mammalian models to date.

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Tina M Kousted

Overexpression of protease nexin-1 mRNA and protein in oral squamous cell carcinomas

Expression of plasminogen activator inhibitor‐1 and protease nexin‐1 in human astrocytes: Response to injury‐related factors

Three monoclonal antibodies against the serpin protease nexin-1 prevent protease translocation

Protease Nexin‐1 – a Serpin with a Possible Proinvasive Role in Cancer

Exploring the antigenic response to multiplexed immunizations in a chicken model of antibody production

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