Your search keyword '"Yajun Cui"' showing total 3 results

1. Synovial fibroblasts self-direct multicellular lining architecture and synthetic function in three-dimensional organ culture

Author

Gary P. Sims, Anthony J. Coyle, Markus Sköld, Josef S Smolen, Hans P. Kiener, David M. Lee, Manuela Cernadas, Matthew L. Warman, Yajun Cui, Birgit Niederreiter, Jun Lu, Gerald F. Watts, John Wright, Michael B. Brenner, Thomas S. Thornhill, and Samuel M. Behar

Subjects

musculoskeletal diseases, 030203 arthritis & rheumatology, Basement membrane, 0303 health sciences, Reticular fiber, Pathology, medicine.medical_specialty, Immunology, Biology, Matrix (biology), musculoskeletal system, Organ culture, Extracellular matrix, Dermal fibroblast, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Rheumatology, medicine, Immunology and Allergy, Synovial fluid, Pharmacology (medical), Synovial membrane, skin and connective tissue diseases, 030304 developmental biology

Abstract

Objective To define the intrinsic capacity of fibroblast-like synoviocytes (FLS) to establish a 3-dimensional (3-D) complex synovial lining architecture characterized by the multicellular organization of the compacted synovial lining and the elaboration of synovial fluid constituents. Methods FLS were cultured in spherical extracellular matrix (ECM) micromasses for 3 weeks. The FLS micromass architecture was assessed histologically and compared with that of dermal fibroblast controls. Lubricin synthesis was measured via immunodetection. Basement membrane matrix and reticular fiber stains were performed to examine ECM organization. Primary human and mouse monocytes were prepared and cocultured with FLS in micromass to investigate cocompaction in the lining architecture. Cytokine stimuli were applied to determine the capacity for inflammatory architecture rearrangement. Results FLS, but not dermal fibroblasts, spontaneously formed a compacted lining architecture over 3 weeks in the 3-D ECM micromass organ cultures. These lining cells produced lubricin. FLS rearranged their surrounding ECM into a complex architecture resembling the synovial lining and supported the survival and cocompaction of monocyte/macrophages in the neo–lining structure. Furthermore, when stimulated by cytokines, FLS lining structures displayed features of the hyperplastic rheumatoid arthritis synovial lining. Conclusion This 3-D micromass organ culture method demonstrates that many of the phenotypic characteristics of the normal and the hyperplastic synovial lining in vivo are intrinsic functions of FLS. Moreover, FLS promote survival and cocompaction of primary monocytes in a manner remarkably similar to that of synovial lining macrophages. These findings provide new insight into inherent functions of the FLS lineage and establish a powerful in vitro method for further investigation of this lineage.

Published

2010

2. Synovial Fibroblasts Self-Direct Multicellular Lining Architecture and Synthetic Function in Three-Dimensional Organ Culture.

Author

Kiener, Hans P., Watts, Gerald F. M., Yajun Cui, Wright, John, Thornhill, Thomas S., Sköld, Markus, Behar, Samuel M., Niederreiter, Birgit, Jun Lu, Cernadas, Manuela, Coyle, Anthony J., Sims, Gary P., Smolen, Josef, Warman, Matthew L., Brenner, Michael B., and Lee, David M.

Subjects

SYNOVIAL membranes, RHEUMATOID arthritis, FIBROBLAST adhesion, EXTRACELLULAR matrix, HYPERPLASIA, MACROPHAGES, PHYSIOLOGY

Abstract

The article discusses the creation of a three dimensional (3-D) multicellular synovial lining using cultured fibroblast-like synoviocytes (FLS) in a spherical extracellular matrix (ECM) micromasses. It mentions that the FLS form into a complex architecture which corresponds to the hyperplasia of macrophages in the synovial lining in rheumatoid arthritis (RA). It states that the findings are essential in determining the inherent function of FLS.

Published

2010

3. Association Between Friction and Wear in Diarthrodial Joints Lacking Lubricin.

Author

Jay, Gregory D., Torres, Jahn R., Rhee, David K., Helminen, Heikki J., Hytinnen, Mika M., Chung-Ja Cha, Elsaid, Khaled, Kyung-Suk Kim, Yajun Cui, and Warman, Matthew L.

Subjects

JOINT injuries, GLYCOPROTEINS, CARTILAGE cells, SYNOVIAL fluid, CARTILAGE

Abstract

The article discusses a study on the association between friction and wear in diarthrodial joints that lack the glycoprotein lubricin. Lubricin is secreted by surface chondrocytes and synovial cells and has been proved to reduce friction in vitro. The research found that synovial fluid (SF) lacking lubricin failed to reduce friction in the boundary mode. It concludes that friction is coupled with wear at the cartilage surface in vivo.

Published

2007