Jakob Kristensen scite author profile

Emerging evidence suggests that altered components and posttranslational modifications of proteins in the extracellular matrix (ECM) may both initiate and drive disease progression. The ECM is a complex grid consisting of multiple proteins, most of which play a vital role in containing the essential information needed for maintenance of a sophisticated structure anchoring the cells and sustaining normal function of tissues. Therefore, the matrix itself may be considered as a paracrine/endocrine entity, with more complex functions than previously appreciated. The aims of this review are to 1) explore key structural and functional components of the ECM as exemplified by monogenetic disorders leading to severe pathologies, 2) discuss selected pathological posttranslational modifications of ECM proteins resulting in altered functional (signaling) properties from the original structural proteins, and 3) discuss how these findings support the novel concept that an increasing number of components of the ECM harbor signaling functions that can modulate fibrotic liver disease. The ECM entails functions in addition to anchoring cells and modulating their migratory behavior. Key ECM components and their posttranslational modifications often harbor multiple domains with different signaling potential, in particular when modified during inflammation or wound healing. This signaling by the ECM should be considered a paracrine/endocrine function, as it affects cell phenotype, function, fate, and finally tissue homeostasis. These properties should be exploited to establish novel biochemical markers and antifibrotic treatment strategies for liver fibrosis as well as other fibrotic diseases.collagen; cytokine; extracellular fibrogenesis; integrin; laminin; matrix metalloproteinase; posttranslational modification; proteoglycan; endocrine 45% OF ALL DEATHS IN THE DEVELOPED WORLD are associated with chronic fibroproliferative diseases (256, 378). Thus there is an increasing need to address fibroproliferative diseases because of their strong impact on the quality of life and health costs consequent to pain and organ failure, with an increased need for organ transplants despite dwindling availability, often followed by death. Moreover, their severity and perceived irreversibility in view of a current paucity of treatment options, coupled with a high prevalence in most and an orphan status in some fibrotic diseases, have just begun to attract biotechnology and big pharmaceutical companies to the field.The common denominator of fibroproliferative diseases is a dysregulated tissue remodeling leading to the excessive and abnormal accumulation of extracellular matrix (ECM) components, thereby generating an ECM with different structural and signaling properties in the affected tissues (285, 287, 289, 378 -380). Fibrosis can affect almost any organ or tissue and is therefore associated with a wide variety of diseases and injuries (287). Figure 1 illustrates the major fibroproliferative diseases with a significant impact on human health (20, ...

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Delivery of Antisense Oligonucleotides Using HPMA Polymer: Synthesis of A Thiol Polymer and Its Conjugation to Water-Soluble Molecules

Wang

Kristensen

Ruffner

1998

Bioconjugate Chem.

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Here, we report the synthesis and characterization of an HPMA-based polymer for use as a carrier for the delivery of water soluble drugs. The polymer contains active-sulfhydryl groups for coupling of ligands through a disulfide linkage. The polymer can also be prepared containing pendant amino groups in addition to the active-sulfhydryl moiety. This allows the use of different chemistries to conjugate a variety of ligands to the polymer. We demonstrate that a sulfhydryl-terminated antisense oligonucleotide can be efficiently and rapidly conjugated to the polymer. The polymer-oligonucleotide conjugate is efficiently taken up by cultured cells.

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Systemic Biomarkers of Collagen and Elastin Turnover Are Associated With Clinically Relevant Outcomes in COPD

Stolz

Leeming

Kristensen

et al. 2017

Chest

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Accelerated extracellular matrix turnover during exacerbations of COPD

et al. 2015

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BackgroundExacerbations of chronic obstructive pulmonary disease (COPD) contribute significantly to disease progression. However, the effect on tissue structure and turnover is not well described. There is an urgent clinical need for biomarkers of disease activity associated with disease progression. Extracellular matrix (ECM) turnover reflects activity in tissues and consequently assessment of ECM turnover may serve as biomarkers of disease activity. We hypothesized that the turnover of lung ECM proteins were altered during exacerbations of COPD.Methods69 patients with COPD hospitalised for an exacerbation were recruited at admission and returned for a 4 weeks follow-up. Competitive ELISAs measuring circulating protein fragments in serum or plasma assessed the formation and degradation of collagen types III (Pro-C3 and C3M, respectively), IV (P4NP 7S and C4M, respectively), and VI (Pro-C6 and C6M, respectively), and degradation of elastin (ELM7 and EL-NE) and versican (VCANM).ResultsCirculating levels of C3M, C4M, C6M, ELM7, and EL-NE were elevated during an exacerbation of COPD as compared to follow-up (all P <0.0001), while VCANM levels were decreased (P <0.0001). Pro-C6 levels were decreased and P4NP 7S levels were elevated during exacerbation (P <0.0001). Pro-C3 levels were unchanged. At time of exacerbation, degradation/formation ratios were increased for collagen types III and VI and decreased for collagen type IV.ConclusionsExacerbations of COPD resulted in elevated levels of circulating fragments of structural proteins, which may serve as markers of disease activity. This suggests that patients with COPD have accelerated ECM turnover during exacerbations which may be related to disease progression.

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Fed and fasted state gastro-intestinal in vitro lipolysis: In vitro in vivo relations of a conventional tablet, a SNEDDS and a solidified SNEDDS

Christophersen

Christiansen

Holm

et al. 2014

European Journal of Pharmaceutical Sciences

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