Assessment of Some Tools for the Characterization of the Human Osteoarthritic Cartilage Proteome

Since the proteome of osteoarthritic articular cartilage has been poorly investigated as yet, we adapted proteomic technologies to the study of the proteins secreted or released by fresh human osteoarthritic cartilage in culture. Fresh cartilage explants were obtained from three donors undergoing surgery for knee joint replacement. The explants were dissected out, minced, and incubated in serum-free culture medium. After 48 h, proteins in the medium were identified by two-dimensional or off-gel electrophoresis coupled to tandem mass spectrometry, or by using an antibody-based protein microarray designed to detect angiogenic factors, growth factors, chemokines, and cytokines. We identified a series of 43 proteins. Some of these proteins were already described as secretion products of chondrocytes, such as YKL-39 or osteoprotegerin, while several other were known proteins but have never been reported previously in cartilage, such as the serum amyloid P-component, the vitamin D binding protein, the pigment epithelium derived factor, the pulmonary and activation-regulated chemokine, lyl-1, thrombopoietin, fibrinogen, angiogenin, gelsolin, and osteoglycin/mimecan. While this study enabled the identification of novel proteins secreted or released by human osteoarthritic cartilage, the goal of the present work was essentially to describe the technical approach necessary for a systematic study of osteoarthritic cartilages from a large population of donors, in order to be able to select the good markers and/or targets for this poorly explored disease

A CCR4 antagonist combined with vaccines induces antigen-specific CD8+ T cells and tumor immunity against self antigens.

International audienceRegulatory T cells (Tregs) may impede cancer vaccine efficacy in hematologic malignancies and cancer. CCR4 antagonists, an emergent class of Treg inhibitor, have been shown to block recruitment of Tregs mediated by CCL22 and CCL17. Our aim was to demonstrate the ability of a CCR4 antagonist (a small chemical molecule identified in silico) when combined with vaccines to break peripheral tolerance controlled by Tregs, a prerequisite for the induction of CD8(+) T cells against self Ags. Immunization of transgenic or normal mice expressing tumor-associated self Ags (Her2/neu, OVA, gp100) with a CCR4 antagonist combined with various vaccines led to the induction of effector CD8(+) T cells and partial inhibition of tumor growth expressing self Ags in both prophylactic and therapeutic settings. The CCR4 antagonist was more efficient than cyclophosphamide to elicit anti-self CD8(+) T cells. We also showed that the population of Tregs expressing CCR4 corresponded to memory (CD44(high)) and activated (ICOS(+)) Tregs, an important population to be targeted to modulate Treg activity. CCR4 antagonist represents a competitive class of Treg inhibitor able to induce functional anti-self CD8(+) T cells and tumor growth inhibition when combined with vaccines. High expression of CCR4 on human Tregs also supports the clinical development of this strategy

Mucosal Imprinting of Vaccine-Induced CD8(+) T Cells Is Crucial to Inhibit the Growth of Mucosal Tumors

International audienceAlthough many human cancers are located in mucosal sites, most cancer vaccines are tested against subcutaneous tumors in preclinical models. We therefore wondered whether mucosa-specific homing instructions to the immune system might influence mucosal tumor outgrowth. We showed that the growth of orthotopic head and neck or lung cancers was inhibited when a cancer vaccine was delivered by the intranasal mucosal route but not the intramuscular route. This antitumor effect was dependent on CD8(+) T cells. Indeed, only intranasal vaccination elicited mucosal-specific CD8(+) T cells expressing the mucosal integrin CD49a. Blockade of CD49a decreased intratumoral CD8(+) T cell infiltration and the efficacy of cancer vaccine on mucosal tumor. We then showed that after intranasal vaccination, dendritic cells from lung parenchyma, but not those from spleen, induced the expression of CD49a on cocultured specific CD8(+) T cells. Tumor-infiltrating lymphocytes from human mucosal lung cancer also expressed CD49a, which supports the relevance and possible extrapolation of these results in humans. We thus identified a link between the route of vaccination and the induction of a mucosal homing program on induced CD8(+) T cells that controlled their trafficking. Immunization route directly affected the efficacy of the cancer vaccine to control mucosal tumors