Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0001511 (
Adhesion
)
5,955
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The involvement of beta1 integrins in osteoclast function has been investigated by utilising an antisense oligodeoxynucleotide (ODN) approach. 18-mer antisense and control phosphorothioate ODNs were made to a conserved internal region of beta1 integrin sequence (nucleotide positions 1634-1651 of the human beta1 fibronectin receptor). These were tested on rabbit osteoclasts for anti-adhesive and resorptive effects mediated by alphaVbeta3 and alpha2beta1, the major integrins of osteoclasts. Antisense, but not control, beta1 ODNs inhibited osteoclast adhesion to collagen-coated glass (by up to 70%), but not to glass coated with vitronectin, fibronectin or fibrinogen.
Adhesion
to dentine and subsequent resorption were also inhibited (up to 60%) in a sequence-specific manner. The mechanism of action was verified using both a melanoma cell line, DX3, which expresses multiple integrins at high level including alphaVbeta3 and alpha2beta1, and in a rabbit osteoclast marrow culture (
BMC
) system. Exposure of DX3 cells to antisense ODN for up to 48 hours reduced adhesion to FCS- and collagen-coated glass, and concomitantly inhibited beta1 protein expression assessed by FACS and Western blot analysis; expression of other integrin subunits, alphaV and beta3, was unaffected. Similarly, the beta1 protein levels in the
BMC
were reduced by > 75% without any effect on actin expression. These data reveal the utility of antisense ODNs in exploring osteoclast biology and further define the functional role of osteoclastic beta1 integrin(s).
...
PMID:Beta1 integrin antisense oligodeoxynucleotides: utility in controlling osteoclast function. 1047 1
Regenerative medicine and tissue engineering approaches for solving current medical dilemmas such as organ failure, congenital defect, or reconstruction following disease or trauma typically require specific considerations regarding biomaterial selection, identification of key cell types, and applicable surgical techniques (Lanza et al. Principles of tissue engineering, Academic, 2007; Kikuchi, Kanama., Quart Rev 24:51-67, 2007). The ability to evaluate these components in vitro under conditions which simulate relevant in vivo environments can reduce development risks including time and money costs associated with early-stage product development. Similarly, such methods can be useful in making progress in researching features of natural and synthetic biomaterial such as porosity, strength, surface topography, and functionalization, and their singular or collective effects on cell behavior (Kikuchi and Kanama., Quart Rev 24:51-67, 2007; Furth et al. Biomaterials 28:5068-5073, 2007; Mieszawska and Kaplan.,
BMC
Biol 8:59, 2010).
Adhesion
, migration, and gene and protein expression are all cell behaviors that can be affected by properties of a chosen biomaterial and vary based upon organ system (Cornwell et al. J Biomater Res 71A:55-62, 2004; David et al. Tissue Eng 8(5):787-798, 2002). Understanding of these properties and their role in combination with biomaterial in remodeling is sought in order to fully harness and direct regeneration (Lanza et al. Principles of tissue engineering, Academic Press, 2007; Mieszawska and Kaplan.
BMC
Biol 8:59, 2010; Matragotri and Lahann J. Nat Mater 8:15-23, 2009).
...
PMID:Migration assay to evaluate cellular interactions with biomaterials for tissue engineering/regenerative medicine applications. 2349 30
Adhesions
represent a major burden in clinical practice, particularly following abdominal, intrauterine, pericardial and tendon surgical procedures.
Adhesions
are initiated by a disruption in the epithelial or mesothelial layer of tissue, which leads to fibrin adhesion sites due to the downregulation of fibrinolytic activity and an increase in fibrin deposition. Hence, the metabolic events involved in tissue healing, coagulation, inflammation, fibrinolysis and angiogenesis play a pivotal role in adhesion formation. Understanding these events, their interactions and their influence on the development of post-surgical adhesion is crucial for the development of effective therapies to prevent them. Mechanical barriers, antiadhesive agents and combination thereof are customarily used in the battle against adhesions. Although these systems seem to be effective at reducing adhesions in clinical procedures, their prevention remains still elusive, imposing the need for new antiadhesive strategies.
BMC
Biomed Eng 2019
PMID:Battling adhesions: from understanding to prevention. 3290 53
