Link N suppresses interleukin-1β-induced biological effects on human osteoarthritic cartilage

Alaqeel, Motaz; Mp, Grant; Lm, Epure; Salem, Omar; Al-Shaer, Abrar E.; Ol, Huk; Sg, Bergeron; Dj, Zukor; R, Kc; Im, H-J.; An, Anbazhagan; Antoniou, John; Mwale, Fackson

doi:10.22203/ecm.v039a04

Cited by 9 publications

(11 citation statements)

References 44 publications

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“…This finding was in an agreement with earlier data (Alaqeel et al, 2020) showing that LN can restore GAG production to healthy control levels in human osteoarthritic cartilage when exposed to IL-1β, an inflammatory cytokine known for its catabolic activities in cartilage and IVD (Masuda and An, 2004;Yang et al, 2015). The strong effect of LN observed in these conditions could be partly explained by the fact that LN inhibits IL-1β signalling pathways (Alaqeel et al, 2020). Interestingly, the study's findings demonstrated that in a degenerative medium, the level of GAG achieved with LN reached similar levels to those observed with TGF-β.…”

Section: Discussionsupporting

confidence: 94%

“…Data indicated that, under conditions mimicking the degenerative disc environment, LN induced a strong increase in GAG production by NP cells. This finding was in an agreement with earlier data (Alaqeel et al, 2020) showing that LN can restore GAG production to healthy control levels in human osteoarthritic cartilage when exposed to IL-1β, an inflammatory cytokine known for its catabolic activities in cartilage and IVD (Masuda and An, 2004;Yang et al, 2015). The strong effect of LN observed in these conditions could be partly explained by the fact that LN inhibits IL-1β signalling pathways (Alaqeel et al, 2020).…”

Section: Discussionsupporting

confidence: 92%

“…The authors reported that this may be related to the low-grade of cartilage pathology occurring at this site in the model. This observation raises the possibility that LN exerts its influence once matrix degradation exceeds turnover (Alaqeel et al, 2020;Antoniou et al, 2019). In contrast, TGF-β increased GAG production in both normal and degenerative conditions.…”

Section: Discussionmentioning

confidence: 98%

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Chitosan-based hydrogels supplemented with gelatine and Link N enhance extracellular matrix deposition by encapsulated cells in a degenerative intervertebral disc environment

Adoungotchodo¹,

Epure²,

Mwale³

et al. 2021

eCM

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Injectable therapies for intervertebral disc (IVD) repair are gaining much interest. Recently, a chitosan (CH)-based injectable scaffold has been developed that has similar mechanical properties to human nucleus pulposus (NP) and provides a suitable environment for encapsulated NP cell survival and proteoglycan production. The hypothesis of the study was that the biological response of the encapsulated cells can be further increased by adding gelatine and Link N (LN, a naturally occurring peptide present in cartilage and IVD extracellular matrix), known to increase cell adhesion and proteoglycan production, respectively. The effect of gelatine on the mechanical properties of a CH hydrogel was evaluated through rheological and compressive mechanical tests. Production of proteoglycan [assessed as glycosaminoglycan (GAG)] by encapsulated NP cells was determined in the presence or absence of gelatine in normal or degenerative medium supplemented with LN. Normal and degenerative media replicate the healthy and degenerative disc environment, respectively. Gelatine slightly reduced the gelation rate of CH hydrogel but improved its final mechanical properties in compression. LN had a minimal effect in normal medium but induced significantly more GAG production in degenerative medium (p < 0.001, 4.7-fold superior to the control), reaching similar results to transforming growth factor (TGF)-β (used as a positive control). GAG production was further increased in CH-gelatine hydrogels, confirming an additive effect of LN and gelatine in a degenerative environment. The results supported the concept that CH-gelatine hydrogels supplemented with LN can help restore the function of the NP during the early stages of IVD degeneration.

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Section: Discussionsupporting

confidence: 94%

Section: Discussionsupporting

confidence: 92%

Section: Discussionmentioning

confidence: 98%

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Chitosan-based hydrogels supplemented with gelatine and Link N enhance extracellular matrix deposition by encapsulated cells in a degenerative intervertebral disc environment

Adoungotchodo¹,

Epure²,

Mwale³

et al. 2021

eCM

Self Cite

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“…Another mechanism by which Link N may be inhibiting the induction of NTs by inflammatory cytokines in IVD cells is by decreasing cytokine signaling pathway. In our unpublished work, human chondrocytes coexposed to IL‐1β and Link N demonstrated a reduced activation of nuclear factor‐κB when compared to chondrocytes treated with IL‐1β alone . Since the IL‐1β signaling pathway is important in mediating NTs upregulation, factors that inhibit IL‐1β receptor signaling (ie, IL‐1 receptor antagonist) may play a role in regulating the pathogenesis of degenerative IVD disease.…”

Section: Discussionmentioning

confidence: 89%

Link N as a therapeutic agent for discogenic pain

et al. 2018

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Neurotrophins (NTs) are the major contributors of sensory axonal sprouting, neural survival, regulation of nociceptive sensory neurons, inflammatory hyperalgesia, and neuropathic pain. Intervertebral disc (IVD) cells constitutively express NTs. Their expression is upregulated by proinflammatory cytokines present in the IVD during degeneration, which can promote peripheral nerve ingrowth and hyperinnervation, leading to discogenic pain. Currently, there are no targeted therapies that decrease hyperinnervation in degenerative disc disease. Link N is a naturally occurring peptide with a high regenerative potential in the IVD. Therefore, the suitability of Link N as a therapeutic peptide for suppressing NTs, which are known modulators and mediators of pain, was investigated. The aim of the present study is to determine the effect of Link N on NTs expression, nerve growth factor (NGF), brain‐derived neurotrophic factor (BDNF), and their cognate receptors TrkA and TrkB as they are directly correlated with symptomatic back pain. Furthermore, the neurotransmitter (substance P) was also evaluated in human annulus fibrosus (AF) cells stimulated with cytokines. Human AF cells isolated from normal IVDs were stimulated with interleukin‐1β (IL‐1β) and tumor necrosis factor‐α (TNF‐α) in the presence or absence of Link N. NGF release in the media was evaluated by Western blotting. Total RNA was isolated and gene expression was measured using real‐time PCR. Gene expression of NGF, BDNF, TrkA, and TrkB significantly decreased in human disc cells stimulated with either IL‐1β or TNF‐α supplemented with Link N when compared to the cells stimulated only with IL‐1β or TNF‐α. NGF protein expression was also suppressed in AF cells coincubated with Link N and IL‐1β when compared to the cells stimulated only with IL‐1β. Link N can suppress the stimulation of NGF, BDNF, and their receptors TrkA and TrkB in AF cells in an inflammatory milieu. Thus, coupled with previous observations, this suggests that administration of Link N has the potential to not only repair the discs in early stages of the disease but also suppress pain.

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“…Link protein is a glycoprotein that interacts with and connects hyaluronic acid and aggrecan, and thus stabilizes the cartilage ECM. Recent studies have demonstrated that a short N-terminal fragment has anabolic functions, promotes matrix production and decreases the activity of catabolic enzymes, including MMPs, in degenerating intervertebral discs [ 87 ] but also human OA cartilage [ 88 ]. The fragmentation of the perifibrillar proteoglycans decorin, biglycan, lumican and keratocan is elevated in degenerating human meniscus, knee and hip articular cartilages compared with age-matched macroscopically normal and control tissues [ 89 ].…”

Section: The Role Of Proteases and Cytokines In Oamentioning

confidence: 99%

Osteoarthritis: Novel Molecular Mechanisms Increase Our Understanding of the Disease Pathology

Grässel

Zaucke

Madry

2021

JCM

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Although osteoarthritis (OA) is the most common musculoskeletal condition that causes significant health and social problems worldwide, its exact etiology is still unclear. With an aging and increasingly obese population, OA is becoming even more prevalent than in previous decades. Up to 35% of the world’s population over 60 years of age suffers from symptomatic (painful, disabling) OA. The disease poses a tremendous economic burden on the health-care system and society for diagnosis, treatment, sick leave, rehabilitation, and early retirement. Most patients also experience sleep disturbances, reduced capability for exercising, lifting, and walking and are less capable of working, and maintaining an independent lifestyle. For patients, the major problem is disability, resulting from joint tissue destruction and pain. So far, there is no therapy available that effectively arrests structural deterioration of cartilage and bone or is able to successfully reverse any of the existing structural defects. Here, we elucidate novel concepts and hypotheses regarding disease progression and pathology, which are relevant for understanding underlying the molecular mechanisms as a prerequisite for future therapeutic approaches. Emphasis is placed on topographical modeling of the disease, the role of proteases and cytokines in OA, and the impact of the peripheral nervous system and its neuropeptides.

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Link N suppresses interleukin-1β-induced biological effects on human osteoarthritic cartilage

Cited by 9 publications

References 44 publications

Chitosan-based hydrogels supplemented with gelatine and Link N enhance extracellular matrix deposition by encapsulated cells in a degenerative intervertebral disc environment

Chitosan-based hydrogels supplemented with gelatine and Link N enhance extracellular matrix deposition by encapsulated cells in a degenerative intervertebral disc environment

Link N as a therapeutic agent for discogenic pain

Osteoarthritis: Novel Molecular Mechanisms Increase Our Understanding of the Disease Pathology

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