Anna Osiecka-Iwan scite author profile

Curcumin (diferuloylmethane) derived from the rhizome of Curcuma longa L. has been used for thousands of years in traditional Chinese medicine and Ayurvedic medicine in Asian countries to treat liver diseases, rheumatoid diseases, diabetes, atherosclerosis, infectious diseases and cancer. It exhibits a wide range of pharmacological properties, which include antioxidant, anti-inflammatory, antimutagenic, antimicrobial and anticancer activity. Herein the mechanisms of curcumin impact on oxidative stress, angiogenesis and inflammatory processes are described indicating that curcumin use may inhibit those pathological conditions and restore body homeostasis. Its effectiveness was also proved for major eye diseases. In this review, the influence of curcumin on eye diseases, such as glaucoma, cataract, age-related macular degeneration, diabetic retinopathy, corneal neovascularization, corneal wound healing, dry eye disease, conjunctivitis, pterygium, anterior uveitis are reported. The analysis of a number of clinical and preclinical investigations indicates that curcumin may be used as a therapeutic agent in the treatment of various eye disorders.

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Immune response by host after allogeneic chondrocyte transplant to the cartilage

Moskalewski

Hyc

Osiecka-Iwan

2002

Microscopy Res & Technique

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Chondrocytes constitutively express class I and, in some species, class II major histocompatibility complex (MHC). It is also possible that they possess specific differentiation antigen(s). Furthermore, lymphocytic cells, corresponding to NK cells, display spontaneous cytotoxic activity against chondrocytes. Studies on articular cartilage repair by transplants of allogeneic chondrocytes were mainly done on non-inbred animals, such as rabbits and hens. Surprisingly, only in single instances these transplants were rejected. In inbred rats, allogeneic chondrocytes transplanted into full-thickness defects in articular cartilage immediately after isolation evoked systemic immunological reaction and produced cartilage was rejected. Combined immunosuppression with cyclosporin A and cladribine did not prevent rejection of such transplants. Mechanical separation of transplants from bone marrow prevented sensitization of recipients and rejection of the produced cartilage. Successful allogeneic chondrocyte transplants in rabbits and hens could be tentatively explained by a certain degree of inbreeding among experimental animals, by the use of chondrocytes cultivated before grafting in artificial scaffolds and thus protected by matrix produced in vitro, and also by creation of a temporary mechanical barrier between transplant and bone marrow by tissues damaged during preparation of the defect.

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Immunosuppression and Rejection of Cartilage Formed by Allogeneic Chondrocytes in Rats

1999

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Rat syngeneic and allogeneic chondrocytes were transplanted intramuscularly or into defects prepared in articular cartilage (intracartilaginous transplants). Recipients of allogeneic transplants received cyclosporin A (CsA), cladribine (2-chlorodeoxyadenosine, 2-CdA), or both drugs in combination. Transplants were taken for examination after 5 weeks. Cartilage formed intramuscularly by syngeneic chondrocytes was ossified. Allogeneic cartilage was resorbed by infiltrating cells. CsA or 2-CdA partially suppressed, and both these agents in combination strongly suppressed, formation of infiltrations. Both syngeneic and allogeneic chondrocytes formed cartilage in joint surface defects but only allogeneic cartilage was attacked by infiltrating cells. CsA + 2-CdA treatment slightly decreased intensity of infiltrations but did not prevent cartilage resorption. Antichondrocyte response was studied by evaluation of spleen mononuclear cells (SMC) stimulation in mixed splenocyte-chondrocyte cultures and by detection of antichondrocyte cytotoxic antibodies. SMC stimulation index (SI) was calculated separately for syngeneic and allogeneic chondrocytes. Comparison of SMC SI for syngeneic and allogeneic chondrocytes indicated lack of stimulation of SMC from control or syngeneic transplant recipients and significant stimulation of SMC from recipients of allogeneic transplants. SMC from animals treated with CsA + 2-CdA were not stimulated. Additional experiments aiming at an explanation of the lack of stimulation of SMC from intact animals by syngeneic chondrocytes reported in this work and contrary to other findings disclosed that it was caused by the use of collagenase solution containing N alpha-p-tosyl-l-lysine chloromethyl ketone for chondrocyte isolation. Spontaneous antichondrocyte cytotoxic antibody activity was found in intact rats raised only in sera from recipients of allogeneic intramuscular transplants without immunosuppression. Thus, strong immunosuppressive treatment of rats with allogeneic chondrocyte transplants was more effective in relation to the general immunological response than to the local reaction.

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Antigenic and immunogenic properties of chondrocytes. Implications for chondrocyte therapeutic transplantation and pathogenesis of inflammatory and degenerative joint diseases

Osiecka-Iwan¹,

Hyc²,

Radomska-Leśniewska³

et al. 2018

cejoi

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In physiological conditions chondrocytes are protected from contact with immunocompetent cells by the extracellular matrix, and transplanted fragments of allogeneic cartilage are not rejected. Cartilage produced by allogeneic chondrocytes, however, evokes the immune response of the recipient and is gradually destroyed. Immunisation by allogeneic chondrocytes is induced by the contact of their surface molecules with cells of the immune system. Chondrocytes constitutively express class I and, in some species, class II major histocompatibility complex (MHC) molecules. Expression of MHC class II molecules is induced in vitro by pro-inflammatory cytokines and in vivo in the course of the rejection of transplanted allogeneic cartilage. Low level of MHC class II molecules is found on the surface of human articular chondrocytes in patients with rheumatoid arthritis and osteoarthritis. Cartilage produced by transplanted allogeneic chondrocytes is destroyed by monocytes/macrophages and cytotoxic T and natural killer (NK) cells. NK cells show spontaneous cytotoxic reactivity against isolated chondrocytes and participate in the rejection of transplanted isolated chondrocytes. Chondrocytes express molecules that can serve as potential antigens in inflammatory joint diseases. Chondrocytes express cartilage-specific membrane antigen (CH65), human cartilage glycoprotein-39 (HC gp-39), hyaluronan binding adhesion molecule CD44, thymocyte antigen-1 (Thy-1) – CD90, signal transducer – CD24, lymphocyte function-associated antigen-3 (LFA-3) – CD58, and type I transmembrane protein Tmp21. On the other hand, although chondrocytes express major histocompatibility complex (MHC) class I and class II molecules, they can also exert immunosuppressive and immunomodulatory effects on immunocompetent cells. Isolated chondrocytes do not trigger an efficient allogeneic immune response in vitro and suppress, in a contact-dependent manner, proliferation of activated T cells. This suppression is associated with the expression by chondrocytes of multiple negative regulators of immune response. Chondrocytes express programmed death-ligand (PD-L), chondromodulin-I and indoleamine 2,3-dioxygenase (IDO), molecules that promote self-tolerance and suppress the immune system.

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Effect of IL-1β, TNF-agr; and IL-4 on complement regulatory protein mRNA expression in human articular chondrocytes

Hyc

Osiecka-Iwan²,

Strzelczyk³

et al. 2003

Int J Mol Med

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