Biomarkers and proteomic analysis of osteoarthritis

Hsueh, M.-F.; Önnerfjord, Patrik; Kraus, Virginia B.

doi:10.1016/j.matbio.2014.08.012

Cited by 72 publications

(52 citation statements)

References 81 publications

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“…Proteomics methods have identified many proteins that may relate to pathological mechanisms of OA (for review see [25]). For instance, the OA synovial fluid proteome implicates proteins related to formation and remodeling of the extracellular matrix [26], and the acute-phase response signaling pathway, the complement pathway, and the coagulation pathway [27].…”

Section: The Diseasementioning

confidence: 99%

Call for standardized definitions of osteoarthritis and risk stratification for clinical trials and clinical use

Kraus

Blanco

Englund

et al. 2015

Osteoarthritis and Cartilage

472

345

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Osteoarthritis is a heterogeneous disorder. The goals of this review are (1) To stimulate use of standardized nomenclature for osteoarthritis (OA) that could serve as building blocks for describing OA and defining OA phenotypes, in short to provide unifying disease concepts for a heterogeneous disorder; and (2) To stimulate establishment of ROAD (Risk of Osteoarthritis Development) and ROAP (Risk of Osteoarthritis Progression) tools analogous to the FRAX™ instrument for predicting risk of fracture in osteoporosis; and (3) To stimulate formulation of tools for identifying disease in its early preradiographic and/or molecular stages -- REDI (Reliable Early Disease Identification). Consensus around more sensitive and specific diagnostic criteria for OA could spur development of disease modifying therapies for this entity that has proved so recalcitrant to date. We fully acknowledge that as we move forward, we expect to develop more sophisticated definitions, terminology and tools.

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Section: The Diseasementioning

confidence: 99%

Call for standardized definitions of osteoarthritis and risk stratification for clinical trials and clinical use

Kraus

Blanco

Englund

et al. 2015

Osteoarthritis and Cartilage

472

345

View full text Add to dashboard Cite

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“…An example of proteoglycan versatility comes in the form of perlecan, an immense heparan sulfate proteoglycan primarily localized to basement membranes and pericellular spaces [4–9]. The modular structure of perlecan enables homeostatic regulation within a vast array of cellular processes including cell adhesion [10,11], endocytosis [12], bone and cartilage formation [13–16], lipid metabolism [17], peripheral node assembly [18], inflammation and wound healing [19,20], thrombosis [21], cancer angiogenesis [9,11,22–33], cardiovascular development [34], and autophagy [35,36]. Given the gargantuan structure and multitude of functions of perlecan, it is no surprise that its gene, HSPG2 , is similarly large and transcriptionally controlled by complex promoter interactions.…”

Section: Introductionmentioning

confidence: 99%

A current view of perlecan in physiology and pathology: A mosaic of functions

2017

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Perlecan, a large basement membrane heparan sulfate proteoglycan, is expressed in a wide array of tissues where it regulates diverse cellular processes including bone formation, inflammation, cardiac development, and angiogenesis. Here we provide a contemporary review germane to the biology of perlecan encompassing its genetic regulation as well as an analysis of its modular protein structure as it pertains to function. As perlecan signaling from the extracellular matrix converges on master regulators of autophagy, including AMPK and mTOR, via a specific interaction with vascular endothelial growth factor receptor 2, we specifically focus on the mechanism of action of perlecan in autophagy and angiogenesis and contrast the role of endorepellin, the C-terminal fragment of perlecan, in these cellular and morphogenic events.

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“…For example, a peptidomics study identified three urinary fibrinogen peptides as biomarkers for necrotizing enterocolitis, a leading cause of morbidity and mortality in premature infants 13. Similarly, shotgun proteomics has been used in biomarker studies for renal and urinary tract diseases14 and disease conditions, not in anatomical proximity to the site of sample collection, such as cancer,15 aging,16 osteoarthritis,17 and preeclampsia 18. Urine has also been pre-fractionated to characterize subsets of its proteome, which include exosomes and microparticles.…”

Section: Introductionmentioning

confidence: 99%

Comprehensive Metaproteomic Analyses of Urine in the Presence and Absence of Neutrophil-Associated Inflammation in the Urinary Tract

Yoshida¹,

Sikorski²,

Smith³

et al. 2017

Theranostics

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Inflammation in the urinary tract results in a urinary proteome characterized by a high dynamic range of protein concentrations and high variability in protein content. This proteome encompasses plasma proteins not resorbed by renal tubular uptake, renal secretion products, proteins of immune cells and erythrocytes derived from trans-urothelial migration and vascular leakage, respectively, and exfoliating urothelial and squamous epithelial cells. We examined how such proteins partition into soluble urine (SU) and urinary pellet (UP) fractions by analyzing 33 urine specimens 12 of which were associated with a urinary tract infection (UTI). Using mass spectrometry-based metaproteomic approaches, we identified 5,327 non-redundant human proteins, 2,638 and 4,379 of which were associated with SU and UP fractions, respectively, and 1,206 non-redundant protein orthology groups derived from pathogenic and commensal organisms of the urogenital tract. Differences between the SU and UP proteomes were influenced by local inflammation, supported by respective comparisons with 12 healthy control urine proteomes. Clustering analyses showed that SU and UP fractions had proteomic signatures discerning UTIs, vascular injury, and epithelial cell exfoliation from the control group to varying degrees. Cases of UTI revealed clusters of proteins produced by activated neutrophils. Network analysis supported the central role of neutrophil effector proteins in the defense against invading pathogens associated with subsequent coagulation and wound repair processes. Our study expands the existing knowledge of the urinary proteome under perturbed conditions, and should be useful as reference dataset in the search of biomarkers.

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Biomarkers and proteomic analysis of osteoarthritis

Cited by 72 publications

References 81 publications

Call for standardized definitions of osteoarthritis and risk stratification for clinical trials and clinical use

Call for standardized definitions of osteoarthritis and risk stratification for clinical trials and clinical use

A current view of perlecan in physiology and pathology: A mosaic of functions

Comprehensive Metaproteomic Analyses of Urine in the Presence and Absence of Neutrophil-Associated Inflammation in the Urinary Tract

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