Antonia Moretta scite author profile

Stunted growth is a major complication of chronic inflammation and recurrent infections in children. Systemic juvenile rheumatoid arthritis is a chronic inflammatory disorder characterized by markedly elevated circulating levels of IL-6 and stunted growth. In this study we found that NSE/hIL-6 transgenic mouse lines expressing high levels of circulating IL-6 since early after birth presented a reduced growth rate that led to mice 50-70% the size of nontransgenic littermates. Administration of a monoclonal antibody to the murine IL-6 receptor partially reverted the growth defect. In NSE/hIL-6 transgenic mice, circulating IGF-I levels were significantly lower than those of nontransgenic littermates; on the contrary, the distribution of growth hormone pituitary cells, as well as circulating growth hormone levels, were normal. Treatment of nontransgenic mice of the same strain with IL-6 resulted in a significant decrease in IGF-I levels. Moreover, in patients with systemic juvenile rheumatoid arthritis, circulating IL-6 levels were negatively correlated with IGF-I levels. Our findings suggest that IL-6-mediated decrease in IGF-I production represents a major mechanism by which chronic inflammation affects growth. ( J. Clin. Invest. 1997. 99:643-650.) Key words: interleukin 6 • insulinlike growth factor-I • growth disorders • juvenile rheumatoid arthritis

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Human Bone Marrow–Derived Mesenchymal Stem Cells Do Not Undergo Transformation after Long-termIn vitroCulture and Do Not Exhibit Telomere Maintenance Mechanisms

Bernardo

et al. 2007

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Significant improvement in the understanding of mesenchymal stem cell (MSC) biology has opened the way to their clinical use. However, concerns regarding the possibility that MSCs undergo malignant transformation have been raised. We investigated the susceptibility to transformation of human bone marrow (BM)-derived MSCs at different in vitro culture time points. MSCs were isolated from BM of 10 healthy donors and propagated in vitro until reaching either senescence or passage (P) 25. MSCs in the senescence phase were closely monitored for 8 to 12 weeks before interrupting the cultures. The genetic characterization of MSCs was investigated through array-comparative genomic hybridization (array-CGH), conventional karyotyping, and subtelomeric fluorescent in situ hybridization analysis both before and after prolonged culture. MSCs were tested for the expression of telomerase activity, human telomerase reverse transcriptase (hTERT) transcripts, and alternative lengthening of telomere (ALT) mechanism at different passages. A huge variability in terms of proliferative capacity and MSCs life span was noted between donors. In eight of 10 donors, MSCs displayed a progressive decrease in proliferative capacity until reaching senescence. In the remaining two MSC samples, the cultures were interrupted at P25 to pursue data analysis. Array-CGH and cytogenetic analyses showed that MSCs expanded in vitro did not show chromosomal abnormalities. Telomerase activity and hTERT transcripts were not expressed in any of the examined cultures and telomeres shortened during the culture period. ALT was not evidenced in the MSCs tested. BM-derived MSCs can be safely expanded in vitro and are not susceptible to malignant transformation, thus rendering these cells suitable for cell therapy approaches.

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Interaction of Human Mesenchymal Stem Cells with Alloantigen-Induced T Lymphocyte Activation Favors the Differentiation of CD4+ T Cell Subsets Expressing CD25 and/or CTLA4 Molecules.

et al. 2004

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Experimental evidence and preliminary clinical studies have demonstrated that human mesenchymal stem cells (MSCs) display important immune modulatory function of potential relevant interest in the setting of allogeneic hematopoietic stem cell (HSC) transplantation. Effectiveness of MSCs in controlling severe GVHD seems to be related to the immune-regulatory role they play in suppressing alloantigen-specific T-cell activation. Aim of the present study was to extend the analysis of the mechanisms responsible for the immune regulatory effect of interaction between MSCs and alloantigen-specific immune response elicited in vitro in primary and in secondary mixed lymphocyte culture (MLC). At difference with most previously reported studies, we decided to employ non-irradiated MSCs, reasoning that irradiation might impair, beside the proliferative capacity, also the differentiation capability of MSCs and, consequently, alter their interaction pattern with lymphocyte subsets. MSC were added to primary MLC at different doses (MLC-responder-PBMC:MSC ratios = 1:1 and 10:1). Dendritic cell (DC) differentiation, lymphocyte proliferation, alloantigen-specific cytotoxic activity and differentiation of CD4+ T-cell subsets expressing CD25 and/or CTLA4 antigens were assessed in primary and secondary MLC, comparing the effect observed using third-party MSCs with that obtained employing autologous to the MLC-responder (autologous) MSCs. Results demonstrated that human MSCs: (1) strongly inhibit alloantigen-induced DC1 differentiation; (2) down-regulate, in a dose-dependent manner, alloantigen-induced lymphocyte expansion, especially that of CD8+ T cells and of NK lymphocytes; (3) favor the differentiation of CD4+ T cells co-expressing CD25 and/or CTLA4, a phenotype associated with regulatory/suppressive function of immune response; (4) cause a dose-dependent reduction of alloantigen-specific cytotoxic capacity mediated by either cytotoxic T lymphocytes or NK cells; (5) exert more effective suppressive activity on MLC-induced T-cell activation when they are allogeneic rather than autologous with respect to responder cells. In particular, higher percentages of CD4+ and of CD4+CD25+ T cells co-expressing CTLA4+ were detected when third-party, rather than autologous, MSCs were added to MLC. These data suggest that T-cell recognition of alloantigens expressed by MSCs may further facilitate the preferential differentiation of activated CD4+ T cells expressing CTLA4, a glycoprotein, known to deliver an inhibitory signal to T cells and to mediate apoptosis of previously activated T lymphocytes. Several studies previously demonstrated that MSCs exert inhibitory effect on lymphocyte activation through the release of soluble factors. Our data suggest that the preferential differentiation of CD4+CD25+ regulatory T-cell subsets may be favored by other mechanisms of MSC-mediated inhibition of alloantigen-induced effector cell activation and expansion, and, in turn, these CD4+CD25+ cells contribute to propagate and extend suppressor activity. Altogether, our results provide immunological support to the use of MSCs for prevention of immune complications related to both HSC and solid organ transplantation and to the theory that MSCs are “universal” suppressors of immune reactivity.

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Antonia Moretta

Interleukin 6 causes growth impairment in transgenic mice through a decrease in insulin-like growth factor-I. A model for stunted growth in children with chronic inflammation.

Human Bone Marrow–Derived Mesenchymal Stem Cells Do Not Undergo Transformation after Long-termIn vitroCulture and Do Not Exhibit Telomere Maintenance Mechanisms

Interaction of Human Mesenchymal Stem Cells with Alloantigen-Induced T Lymphocyte Activation Favors the Differentiation of CD4+ T Cell Subsets Expressing CD25 and/or CTLA4 Molecules.

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