The Chondrogenesis of PDLs by Dynamic Unconfined Compression Is Dependent on p42/44 and Not p38 or JNK

Fritz, Jason Ronald

01 January 2009

Articular cartilage lines the surfaces of load bearing joints and has limited capabilities for self-repair due to its alymphatic and avascular structure. Attempts at making repairs to this tissue has resulted in substandard materials and/or causing further injury to the patient making this tissue a prime candidate for tissue engineering studies incorporating adult stem cells. These studies have given rise to some answers and many more questions including a search for alternative stem cell sources and what biochemical changes the cells undergo during the differentiation of these stem cells into chondrocytes, the cells which make up articular cartilage. Recently, periodontal dental ligament stem cells (PDLs) have come to the forefront as a practical alternative to other adult stem cells as well as the involvement of the mitogen-activated protein kinases (MAPKs) in stem cell differentiation via mechanical stimulation. During dynamic unconfined compression, levels of p42/44 MAPK increased by 50% (p<0.05). Additionally, the expression of the chondrogenic differentiation factor SRY (sex determining region Y)-box 9 (SOX-9) increased by 3-fold (p<0.05) as well as the chondrocyte marker aggrecan by over 2-fold after 4h of dynamic unconfined compression. Addition of the p42/44 phosphorylation inhibitor PD98059, along with compression, yielded no change in SOX-9 or aggrecan expression levels from basal levels in uncompressed controls. Inhibition of p38 MAPK or JNK phosphorylation during unconfined compression had no effect on the elevated expression of SOX-9 and aggrecan as compared to compressed cells without the addition of an inhibitor. It is therefore the overall findings of this study that PDLs possess the ability to differentiate into chondrocytes by mechanical compression and this differentiation is mediated by the p42/44 MAPK cascade.

The role of keratan sulphate in the modulation of aggrecanase activity

Poon, C. J.

January 2005

Arthritis is a debilitating disease of the joints caused by the accelerated breakdown of cartilage, resulting in painful, swollen joints. Cartilage protects the joint by absorbing the shock that would otherwise be transferred directly to the underlying bone. One crucial component of cartilage is a specialised molecule known as aggrecan. Aggrecan consists of a core protein with three globular domains (G1, G2 and G3) and is modified with over one hundred highly sulphated glycosaminoglycan chains. Two types of glycosaminoglycans are substituted along the length of the protein, chondroitin sulphate and keratan sulphate. The glycosaminoglycans impart a highly negative charge to the tissue, giving it the ability to retain water and resist compressive forces. / Aggrecan is lost from cartilage following cleavage by aggrecanases. Too little aggrecan in cartilage destabilises the structural integrity of the tissue and is associated with arthritis. Of the five known aggrecanase cleavage sites, it is cleavage within the interglobular domain (IGD) between the G1 and G2 domains at NITEGE373 - 374ARGSVI that directly contributes to loss of aggrecan function. / The chondroitin sulphate and keratan sulphate located between the G2 and G3 domains is responsible for maintaining the biomechanical properties of aggrecan. The role of keratan sulphate within the G1-G2 domain is unknown, but it is not thought to be essential for aggrecan function. However the literature suggests a possible role of keratan sulphate in facilitating aggrecanase cleavage of NITEGE373 - 374ARGSVI in the IGD. The aim of my project was to examine the role of keratan sulphate in aggrecanase-mediated cleavage of aggrecan in the IGD. Three major goals have been accomplished in this thesis: 1) Identification of a cell type capable of sustained keratan sulphate synthesis. 2) Expression of a recombinant G1-G2 protein substituted with keratan sulphate (rG1-G2). 3) Demonstration that endogenous N-linked keratan sulphate is sufficient to potentiate aggrecanase cleavage of rG1-G2 in the IGD. / Cultured cells do not synthesise keratan sulphate. Therefore identifying a cell type, and culture conditions to maximise keratan sulphate synthesis, was a major undertaking. Conditions were identified which allowed for maximal keratan sulphate synthesis, albeit on a small scale, in primary bovine keratocytes. Using a Vaccinia virus expression system, recombinant G1-G2 was expressed in primary bovine keratocytes. / Analysis of the rG1-G2 revealed that it was substituted with 5 kDa of keratan sulphate. One important aspect of the study was that the keratan sulphate was all N-linked to the core protein. Subsequent aggrecanase digests, comparing substrates before and after removal of keratan sulphate, showed that aggrecanase cleavage was markedly more efficient when keratan sulphate was present. The results contained in this thesis add significantly to the established literature by providing a greater understanding of the mechanisms involved in aggrecanase-mediated cleavage of aggrecan and cartilage destruction. The results suggest that aggrecan substitution with N-linked keratan sulphate potentiates aggrecanase activity. The results from this study identify N-linked keratan sulphate as a possible target for the development of new drugs for the management of arthritis.

Έκφραση και ρόλος της aggrecan και perlecan στο πρώιμο έμβρυο

Σουλιντζή, Νικολίτσα

24 October 2012

Η ανάπτυξη του εμβρύου καθορίζεται από τις αλληλεπιδράσεις μεταξύ κυττάρων και εξωκυττάριας ύλης. Στην εξωκυττάρια ύλη περιέχονται πρωτεογλυκάνες, εκ των οποίων οι perlecan και aggrecan είναι από τις πρώτες που εκφράζονται στο πρώιμο έμβρυο. Μελετήσαμε τη χωρο-χρονική κατανομή των perlecan και aggrecan με RT-PCR, ανοσοφθορισμό και ανοσοκατακρήμνιση από το στάδιο Χ (μορίδιο) έως το στάδιο ΗΗ17 (29-32 σωμίτες) στο πρώιμο έμβρυο όρνιθας. Επιπρόσθετα, μελετήσαμε το ρόλο των perlecan και aggrecan με τη χρήση μονοκλωνικών αντισωμάτων έναντι αυτών κατά την ανάπτυξη του πρώιμου εμβρύου.Η perlecan πρωτο-ανιχνεύτηκε στο στάδιο του μοριδίου (στάδιο Χ) μόλις πριν τη συναρμολόγηση της πρώτης βασικής μεμβράνης που σχηματίζεται στο πρώιμο έμβρυο. Το πρότυπο κατανομής των μορίων αυτών σε διαφορετικούς κυτταρικούς πληθυσμούς ρυθμίζεται αναπτυξιακά. Η perlecan πρωτο-ανιχνεύτηκε στο στάδιο του μοριδίου (στάδιο Χ) μόλις πριν τη συναρμολόγηση της πρώτης βασικής μεμβράνης που σχηματίζεται στο πρώιμο έμβρυο. Εξαιρετικά μεγάλη ένταση φθορισμού για την perlecan επέδειξαν οι βασικές μεμβράνες/ εξωκυττάρια ύλη του νευροεπιθηλίου και μεσεγχυματικών ιστών κατά την επιθηλιοποιησή τους και επίσης τα κύτταρα κατά τη γαστριδίωση και τα κύτταρα των νευρικών κρηπίδων. Όταν αναστείλαμε τη δράσης της με ειδικά αντισώματα έναντι αυτής παρατηρήσαμε φθορά των βασικών μεμβρανών.Ο ρόλος της perlecan φαίνεται να είναι σημαντικός στη δόμηση βασικών μεμβρανών, στην επιθηλιοποίηση ιστών και στη διαθεσιμότητα αυξητικών παραγόντων. Ανιχνεύσαμε την aggrecan για πρώτη φορά στο στάδιο του βλαστιδίου (στάδιο ΧΙΙΙ) και η παρουσία της φαίνεται να είναι καθοριστικής σημασίας στη δημιουργία του βλαστόκοιλου, της πρώτης εμβρυϊκής κοιλότητας στο στάδιο αυτό. Ένταση φθορισμού για την aggrecan στην αναπτυσσόμενης καρδιάς καθώς και στα κύτταρα των νευρικών κρηπίδων που μεταaναστεύουν. Η αναστολή της δράσης της aggrecan προκάλεσε ανωμαλίες στην αρχιτεκτονική των ιστών και τη φυσιολογική μορφογένεση του εγκεφάλου, της καρδιάς, της ραχιαίας αορτής και της νωτοχορδής. Ο ρόλος της aggrecan σε συνεργισμό με την συνδετική πρωτεΐνη και το υαλουρονικό οξύ φαίνεται να είναι σημαντικός στη δημιουργία και τη διατήρηση της αρχιτεκτονικής των εμβρυϊκών κοιλοτήτων και στη δημιουργία διόδων για την μετανάστευση κυττάρων και την οργανογένεση. / The development of the embryo is determined by specific interactions between cells and components of the extracellular matrix. The extracellular matrix of the embryo is exuberantly rich in proteoglycans, the primary and earliest expressed ones being perlecan and aggrecan. We studied the spatio-temporal distribution of perlecan and aggrecan by RT-PCR, immunofluore-scence and immunoprecipitation in the early chick embryo from the blastoderm at stage X (morula) to stage HH17 (29-32 somites). In addition, we studied the functional importance of perlecan and aggrecan in the early chick embryo by using blocking antibodies. The distribution pattern of these molecules in different cell populations was developmentally regurated. Perlecan was first detectable at the morula stage just before the assembly of the first basement membrane. Perlecan fluorescence was intense in the basement membranes/ extracellular matrix of the neuroepithelium and mesenchematic tissues during their epithelialization and also in migrating cells at gastrula stage and in the neural crest cells. Lack of functional perlecan caused damaged basement membranes. The role of perlecan seemw to be important in the formation of basement membrane, in the epithelialization of tissues and in availability of growth factors.Aggrecan was first detectable at the blastula stage (stage XIII) and its presence may be important for the formation of blastocoel, the first embryonic cavity at this stage. In the developing heart, aggrecan fluorescence was intense and also in the migrating neural crest cells.Lack of functional aggrecan interfered with tissue architecture during normal morphogenesis of the brain, notochord, heart tube and dorsal aorta. The role of aggrecan in concert with link protein and hyaluronic acid is fundamental for the formation and maintenance of embryonic cavities and for determination of passages during migration of cells and organogenesis.

Αγγρεκάνη

Περλεκάνη

Πρώιμο έμβρυο

Πρωτεογλυκάνες

Βασική μεμβράνη

Αναπτυξιακή βιολογία

571.86

Aggrecan

Perlecan

Early embryo

Proteoglycans

Genetic Markers of a Predisposition to Lumbar Disc Degeneration in Young Adults

January 2016

abstract: Intervertebral Disc Degeneration (IVDD) is a complex phenomenon characterizing the desiccation and structural compromise of the primary joint in the human spine. The intervertebral disc (IVD) serves to connect vertebral bodies, cushion shock, and allow for flexion and extension of the vertebral column. Often presenting in the 4th or 5th decades of life as low back pain, this disease was originally believed to be the result of natural “wear and tear” coupled with repetitive mechanical insult, and as such most studies focus on patients between 40 and 50 years of age. Research over the past two decades, however, has demonstrated that environmental factors have only a modest effect on disc degeneration, with genetic influences playing a much more substantial role. Extensive research has focused on this process, though definitive risk factors and a clear pathophysiology have proven elusive. The aim of this study was to assemble a cohort of patients exhibiting definitive signs of degeneration who were well below the average age of presentation, with minimal or no exposure to suspected environmental risk factors and to conduct a targeted genome analysis in an attempt to elucidate a common genetic component. Through whole genome sequencing and analysis, the results corroborated findings in a previous study, as well as demonstrated a potential connection and influence between mutations found in IVD structural or functional genes, and the provocation of IVDD. Though the sample size was limited in scale and age, these findings suggest that further IVDD research into the association of variants in collagen, aggrecan and the insulin-like growth factor receptor genes of young patients with an early presentation of disc degeneration and minimal exposure to suspected risk factors is merited. / Dissertation/Thesis / Masters Thesis Biology 2016

Biology

Genetics

aggrecan

degenerative disc disease

genetic markers

IVDD

lumbar intervertebral disc degeneration

young adults

Vypracování a zavedení metodiky na stanovení osových proteinů / Elaboration and introduction of the method for determination of some proteins

Hruzík, Ondřej

January 2008

Core protein of aggrecan has a significant share on the correct function of articular cartilage. Its lack or structural failure could be the reason for the disfunction of the cartilage. The culture of chondrocytes taken from a pork articular cartilage was used for the study of aggrecan production. The monolayer culture method offers the model system which has enabled us to watch the aggrecan production into growth medium. The aggrecan synthesis was stimulated in the media with addition of L-methionin, L-serin and sodium selenite pentahydrate. Methionin and serin are antecedents of sulphur amino acid of cysteine, whose role is incredibly important for the correct function of core protein. Growth media and chondrocytes were analysed with the help of the automatic amino acids analyzer unit after acid or oxidative hydrolysis. The analyse established the amino acid representation. The main attention was paid to cysteine. The changing concentrations of this amino acid were showing if the antecedents in the addition are used for its production and, therefore, if it is possible to stimulate the production of core protein with these antecedents. The results are discussed in the conclusion of this thesis. The next step should be the detection of the concentration of synthesized aggrecan by the immunological method. Presently this method is very expensive. Therefore, the method of setting the core protein of aggrecan with the help of suitable amino acid was used for the first tests.

Tau Protein Modulates Perineuronal Extracellular Matrix Expression in the TauP301L-acan Mouse Model

Schmidt, Sophie, Holzer, Max, Arendt, Thomas, Sonntag, Mandy, Morawski, Markus

29 June 2023

Tau mutations promote the formation of tau oligomers and filaments, which are neuropathological signs of several tau-associated dementias. Types of neurons in the CNS are spared of tau pathology and are surrounded by a specialized form of extracellular matrix; called perineuronal nets (PNs). Aggrecan, the major PN proteoglycans, is suggested to mediate PNs neuroprotective function by forming an external shield preventing the internalization of misfolded tau. We recently demonstrated a correlation between aggrecan amount and the expression and phosphorylation of tau in a TauP310L-acan mouse model, generated by crossbreeding heterozygous aggrecan mice with a significant reduction of aggrecan and homozygous TauP301L mice. Neurodegenerative processes have been associated with changes of PN structure and protein signature. In this study, we hypothesized that the structure and protein expression of PNs in this TauP310L-acan mouse is regulated by tau. Immunohistochemical and biochemical analyses demonstrate that protein levels of PN components differ between TauP301LHET-acanWT and TauP301LHET-acanHET mice, accompanied by changes in the expression of protein phosphatase 2 A. In addition, tau can modulate PN components such as brevican. Co-immunoprecipitation experiments revealed a physical connection between PN components and tau. These data demonstrate a complex, mutual interrelation of tau and the proteoglycans of the PN.

info:eu-repo/classification/ddc/610

ddc:610

Forensic taphonomy : investigating the post mortem biochemical properties of cartilage and fungal succession as potential forensic tools

Bolton, Shawna N.

January 2015

Post mortem interval (PMI – the time elapsed since death and discovery) is important to medicolegal investigations. It helps to construct crucial time lines and assists with the identification of unknown persons by inclusion or exclusion of a suspect’s known movements. Accurate methodologies for establishing PMI are limited to about 48-hours. Such methods involve use of increasing levels of potassium in vitreous humour, and algor mortis. This study is two-fold. Firstly, it explores the biomolecular changes in degrading porcine cartilage buried in soil environments and its potential to determine PMI in the crucial two days to two months period. Trotters were interred in a number of graves at two distinct locations exhibiting dissimilar soil environments. Weekly disinterments (for 6 weeks) resulted in dissection for cartilage samples which were processed for protein immunoblot analyses and cell vitality assays. Results demonstrate that aggrecan, a major structural proteoglycan, produces high (230kDa) and low (38kDa) molecular weight cross-reactive polypeptides (CRPs) within cartilage extracellular matrix. The 230kDa CRP degrades in a reproducible manner irrespective of the different soil environments utilised. As PMI increases, aggrecan diminishes and degrades forming heterogeneous subpopulations with time. Immunodetection of aggrecan ceases when joint exposure to the soil environment occurs. At this time, aggrecan is metabolised by soil microbes. The molecular breakdown of cartilage proteoglycans has potential for use as a reliable indicator of PMI, irrespective of differing soil environments, beyond the 48-hours period. Likewise, vitality assays also demonstrated viable chondrocytes for as long as 35 PM days. The second component of this study examined the fungal activity associated with trotters buried below ground. Results indicate that fungal growth was considerably influenced by soil chemistry and changes in the environment. Fungal colonisation did not demonstrate temporal patterns of succession. The results of this study indicate that cartilage has the potential to prolong PMI determination well beyond the current 48- and 100-hour limitations posed by various other soft tissue methods. Moreover, the long-term post mortem viability of chondrocytes presents an opportunity to explore DNA extraction from these cells for the purpose of establishing a positive identification for unidentified remains. On the contrary, the growth and colonisation patterns of post putrefactive fungi in relation to decomposing porcine trotters proved to be futile for estimating PMI. Therefore, fungi may not be a suitable candidate for evaluating PMI during the early phase fungal activity.

614

Global Deletion of Sost Increases Intervertebral Disc Hydration But May Trigger Chondrogenesis

Tori Morgan Kroon (8810045)

07 May 2020

Intervertebral discs (IVD) degenerate earlier than many other musculoskeletal tissues and will continue to degenerate with aging. IVD degeneration affects up to 80 percent of the adult population and is a major contributing factor to low back pain. Anti-sclerostin antibody is an FDA-approved treatment for osteoporosis in postmenopausal women at high-risk for fracture and, as a systemic stimulant of the Wnt/LRP5/b-Catenin signaling pathway, may impact the IVD. Stabilization of b-Catenin in the IVD increases Wnt signaling and is anabolic to the extracellular matrix (ECM), while deletion of b-catenin or LRP5 decreases Wnt signaling and is catabolic to the ECM. Here, we hypothesized that a reduction of Sost would stimulate ECM anabolism. Lumbar and caudal (tail) IVD and vertebrae of Sost KO and WT (wildtype) mice (n=8 each) were harvested at 16 weeks of age and tested by MRI, histology, immunohistochemistry, Western Blot, qPCR, and microCT. Compared to WT, Sost KO reduced sclerostin protein and Sost gene expression. Next, Sost KO increased the hydration of the IVD and the proteoglycan stain in the nucleus pulposus and decreased the expression of genes associated with IVD degeneration, e.g., heat shock proteins. However, deletion of Sost was compensated by less unphosphorylated (active) b-Catenin protein in the cell nucleus, upregulation of Wnt signaling inhibitors Dkk1 and sFRP4, and catabolic ECM gene expression. Consequently, notochordal and early chondrocyte-like cells (CLCs) were replaced by mature CLCs. Overall, Sost deletion increased hydration and proteoglycan protein content, but activated a compensatory suppression of Wnt signaling that may trigger chondrogenesis and may potentially be iatrogenic to the IVD in the long-term.

Biomarkers

Diseases

Clinical Pharmacology and Therapeutics

Biomechanical Engineering

hydration

heat shock proteins

genetic animal model

aggrecan

wnt signaling

beta catenin

Efekt strukturálních změn v perineurálních sítích a hluboké hypotermie CNS na synaptickou plasticitu a paměť u myšího modelu tauopatie / The effect of structural changes in perineuronal nets and deep cooling on synaptic plasticity and memory of tauopathy mice

Šafránková, Kristýna

January 2020

Tauopathy is accompanied by both loss of neurons and synapses. The neuronal loss is irreversible with very low chance of functional replacement therapy. However, lost synapses could be restored with proper stimuli. Perineuronal nets (PNNs) are serving as a protecting barrier for neurons, on the other hand they are significantly decreasing the synaptic plasticity. Temporary disintegration of the PNNs by enzymatic therapy might lead to rewiring and accelerate processes of memory and learning. Model of Cold Induced plasticity leads to the withdrawal of significant number of synapses across the brain. The recovery of these could be followed in healthy and diseased animals. Moreover, it can stimulate Cold shock protein dependent neuroprotective mechanisms. This master thesis is focused on these two forms of synaptic plasticity models; forced remodeling of PNNs and model of cold induced synaptic plasticity. Both will serve as a tool to modulate processes of memory and learning in the P301S tauopathy, in mice. In detail, the work will follow changes in the number of synapses at the region of CA1 of hippocampus and synaptic protein levels at level of whole hippocampus and behavioral recovery of pre-trained long-term memory task dependent on dorsal hippocampus. Key words: Perineuronal nets, aggrecan,...

Le potentiel thérapeutique du GDF-5 dans l’arthrose : une étude in vitro des facteurs anaboliques et cataboliques du cartilage

Brunet Maheu, Jean-Marc

09 1900

Introduction: Le principal objectif de cette étude est de mesurer l’effet du GDF-5 sur l’homéostasie du cartilage. Le GDF-5 est un gène de susceptibilité de l’OA faisant partie de la famille des BMPs et qui favorise la synthèse du cartilage. Le but de notre étude a été de déterminer l’effet du GDF-5 sur le métabolisme catabolique ainsi que sur l’équilibre global des chondrocytes, principalement au niveau de l’Aggrécan. Méthode : Des chondrocytes arthrosiques canins et humains OA ont été exposés au GDF-5. L’expression des ARNm et des protéines a été analysée afin d’évaluer la production de l’Aggrécan et le ratio Col-II/Col-I au niveau des facteurs anaboliques et du phénotype. Pour le catabolisme, l’expression et l’activité des aggrécanases ADAMTS-4 et ADAMTS-5 ont été mesurées. Les épitopes NITEGE et CTX-II ont aussi été quantifiés dans le liquide synovial canin après des injections intraarticulaires de GDF-5. Résultats : Le GDF-5 provoque une augmentation de l’activité cellulaire des chondrocytes canins et humains. Pour les ARNm et l’expression protéique, le GDF-5 augmente l’expression de l’Aggrécan alors que les facteurs cataboliques le diminuent. Le phénotype reste inchangé en présence du produit, sauf à haute dose où on augmente le ColI. L’activité des aggrécanases diminue puisque l’épitope NITEGE diminue alors que le CTX-II augmente dans l’articulation. Conclusion : En somme, les facteurs anaboliques du cartilage sont favorisés, alors que les facteurs cataboliques sont diminués par le GDF-5. Cette action double permet d’illustrer l’effet du GDF-5, le classant comme un potentiel médicament modifiant la maladie de l’OA qui mérite d’être étudiée. / Purpose: The objective of this study is to assess the effect of GDF-5 on cartilage homeostasis. GDF-5 is a susceptibility gene for OA and member of the BMP super family. Studies have shown that it can increase expression of anabolic factors in chondrocytes. Therefore, our study indentifies how GDF-5 influences this metabolism and the global homeostasis of chondrocytes, aiming mainly towards Aggrecan. Methods : Osteoarthritic (OA) chondrocytes from canine and human models were exposed to GDF-5. Protein expressions, along with mRNA expression were assessed in order to investigate Aggrecan production and the ratio of Col-II/Col-I, for the anabolic phenotype markers. The aggrecanases ADAMTS-4 and ADAMTS-5 and their global activity were assed for the catabolic factors. The NITEGE and CTX-II epitope were also measured in synovial fluid of Pond-Nuki dogs that received intraarticular GDF-5 injections. Results : GDF-5 increases chondrocyte cellular activity, in our canine and human models. Both mRNA and protein expression of the chondrocytes Aggrecan were increased and the aggrecanases expression and activity were decreased. Collagen ratio did not show a phenotype, except et high dosage where the Col-I production is induced. Aggrecanase activity was lowered while CTX-II was increased. Conclusion : In conclusion, the anabolic cellular activity of OA chondrocytes increases while the catabolic factors decrease in presence of GDF-5. This double action illustrates the global effect of GDF-5, identifying it as a potential disease modifying factor of OA that should be further investigated.

Arthrose (OA)

Chondrocytes

Aggrecan

GDF-5

ADAMTS-4

ADAMTS-5

Pond-Nuki

NITEGE

CTX-II

Osteoarthritis (OA)

Aggrecanase