The implantation of biomedical devices, including collagen-based implants, evokes an inflammatory response. Despite inflammation playing an important role in the early stages of wound healing, excessive and non-resolving inflammation may lead to the poor performance of biomaterial implants in some patients. Therefore, steps should be taken to control the level and duration of an inflammatory response. In this study, oxygen and nitrogen gas plasmas were employed to modify the surface of collagen film, with a view to modifying the surface properties of a substrate in order to induce changes to the inflammatory response, whilst maintaining the mechanical integrity of the underlying collagen film. The effects of cold plasma treatment and resultant changes to surface properties on the non-specific inflammatory response of the immune system was investigated in vitro in direct contact cell culture by the measurement of protein expression and cytokine production after one and four days of human peripheral blood mononuclear cell (PBMC) culture. The results indicated that compared to oxygen plasma, nitrogen plasma treatment produced an anti-inflammatory effect on the collagen film by reducing the initial activation of monocytes and macrophages, which led to a lower production of pro-inflammatory cytokines IL-1β and TNFα, and higher production of anti-inflammatory cytokine IL-10. This was attributed to the combination of the amino chemical group and the significant reduction in roughness associated with the introduction of the nitrogen plasma treatment, which had an effect on the levels of activation of the adherent cell population.
Autologous chondrocyte implantation (ACI) is a cell therapy to repair cartilage defects. In ACI a biopsy is taken from a non-load bearing area of the knee and expanded in-vitro. The expansion process provides the benefit of generating a large number of cells required for implantation; however, during the expansion these cells de-differentiate and lose their chondrocyte phenotype. In this review we focus on examining the de-differentiation phenotype from a mechanobiology and biophysical perspective, highlighting some of the nuclear mechanics and chromatin changes in chondrocytes seen during the expansion process and how this relates to the gene expression profile. We propose that manipulating chondrocyte nuclear architecture and chromatin organization will highlight mechanisms that will help to preserve the chondrocyte phenotype.
IL-2 secretion in response to mitogenic stimulation, assayed in vitro, is significantly reduced in circulating T lymphocytes isolated from healthy old people, but the significance of this abnormality and how it relates to in vivo IL-2 secretion remain unclear. We found that IL-2 secretion in response to PHA plus PMA by peripheral blood T cells isolated from 10 out of 32 (31%) healthy old individuals (mean age 86 yr, range 74-97) was significantly decreased compared with results obtained in 23 younger individuals (mean age 34 yr, range 23-46). This IL-2 secretion defect in vitro was reversible after a 3-day incubation in the absence of activators. The 10 healthy old individuals who had defective IL-2 secretion in vitro also showed increased levels of serum IL-2. T cells from 22 healthy old and 22 young individuals, who had normal IL-2 secretion (geometric mean +/- log of 1 SD: 139 +/- 0.3 U/ml and 212 +/- 0.31 U/ml, respectively) in vitro, showed a remarkable transient T cell defect in IL-2 secretion (15 +/- 0.47 U/ml for the old, 54 +/- 0.28 U/ml for the young) 15 days after influenza vaccination. IL-2 secretion became normal again 30 days after vaccination. The T cell-IL-2 activity, expressed as a T cell-IL-2 activity score (calculated as the logarithm of the serum IL-2 U/ml divided by the logarithm of the IL-2 secretion U/ml, in vitro) was significantly increased in elderly non-responders after influenza vaccination (mean +/- 1 SD: 1.4 +/- 0.51) compared with elderly (0.44 +/- 0.13) and younger responders (0.3 +/- 0.2). Our data suggest that in vitro defective IL-2 secretion is a consequence of T cell activation which seems to occur in a significant proportion of healthy elderly individuals and may be clinically relevant inasmuch as it appears to prevent the normal vaccine-induced antibody response.
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