In humans, the acute inflammatory reaction caused by ultraviolet (UV) radiation is well studied and the sensory changes that are found have been used as a model of cutaneous hyperalgesia. Similar paradigms are now emerging as rodent models of inflammatory pain. Using a narrowband UVB source, we irradiated the plantar surface of rat hind paws. This produced the classical feature of inflammation, erythema, and a significant dose-dependent reduction in both thermal and mechanical paw withdrawal thresholds. These sensory changes peaked 48h after irradiation. At this time there is a graded facilitation of noxious heat evoked (but not basal) c-fos-like immunoreactivity in the L4/5 segments of the spinal cord. We also studied the effects of established analgesic compounds on the UVB-induced hyperalgesia. Systemic as well as topical application of ibuprofen significantly reduced both thermal and mechanical hyperalgesia. Systemic morphine produced a dose-dependent and naloxone sensitive reversal of sensory changes. Similarly, the peripherally restricted opioid loperamide also had a dose-dependent anti-hyperalgesic effect, again reversed by naloxone methiodide. Sequestration of NGF, starting at the time of UVB irradiation, significantly reduced sensory changes. We conclude that UVB inflammation produces a dose-dependent hyperalgesic state sensitive to established analgesics. This suggests that UVB inflammation in the rat may represent a useful translational tool in the study of pain and the testing of analgesic agents.
Nerve growth factor (NGF) promotes cell survival via binding to the tyrosine kinase receptor A (TrkA). Its precursor, proNGF, binds to p75NTR and sortilin receptors to initiate apoptosis. Current disagreement exists over whether proNGF acts neurotrophically following binding to TrkA. As in Alzheimer’s disease the levels of proNGF increase and TrkA decrease, it is important to clarify the properties of proNGF. Here, wild‐type and cleavage‐resistant mutated forms (M) of proNGF were engineered and their binding characteristics determined. M‐proNGF and NGF bound to p75NTR with similar affinities, whilst M‐proNGF had a lower affinity than NGF for TrkA. M‐proNGF behaved neurotrophically, albeit less effectively than NGF. M‐proNGF addition resulted in phosphorylation of TrkA and ERK1/2, and in PC12 cells elicited neurite outgrowth and supported cell survival. Conversely, M‐proNGF addition to cultured cortical neurons initiated caspase 3 cleavage. Importantly, these biological effects were shown to be mediated by unprocessed M‐proNGF. Surprisingly, binding of the pro region alone to TrkA, at a site other than that of NGF, caused TrkA and ERK1/2 phosphorylation. Our data show that M‐proNGF stimulates TrkA to a lesser degree than NGF, suggesting that in Alzheimer brain the increased proNGF : NGF and p75NTR : TrkA ratios may permit apoptotic effects to predominate over neurotrophic effects.
Leptospirosis is a global public health problem, primarily in the tropical developing world. The pathogenic mechanisms of the causative agents, several members of the genus Leptospira, have been underinvestigated. The exception to this trend has been the demonstration of the binding of pathogenic leptospires to the extracellular matrix (ECM) and its components. In this work, interactions of Leptospira interrogans bacteria with mammalian cells, rather than the ECM, were examined. The bacteria bound more efficiently to the cells than to the ECM, and a portion of this cell-binding activity was attributable to attachment to glycosaminoglycan (GAG) chains of proteoglycans (PGs). Chondroitin sulfate B PGs appeared to be the primary targets of L. interrogans attachment, while heparan sulfate PGs were much less important. Inhibition of GAG/PGmediated attachment resulted in partial inhibition of bacterial attachment, suggesting that additional receptors for L. interrogans await identification. GAG binding may participate in the pathogenesis of leptospirosis within the host animal. In addition, because GAGs are expressed on the luminal aspects of epithelial cells in the proximal tubules of the kidneys, this activity may play a role in targeting the bacteria to this critical site.
This study examined the immunocytochemical expression of the transforming growth factor-beta (TGF-beta) isoforms TGF-beta1, TGF-beta2, and TGF-beta3, together with the TGF-beta cell surface receptors TbetaR-I and TbetaR-II, in patient-matched tissue pairs of normal human oral epithelium, primary squamous cell carcinomas, and metastatic lymph node tumour deposits. There were no significant differences in the intensity of TGF-beta isoform specific staining between the normal oral epithelium, the primary tumours, and the lymph node metastases. By contrast, there was significantly less TbetaR-II in the metastases than in the primary tumour and between the primary tumour and the normal oral epithelium. Similar trends were evident with TbetaR-I, but not at a statistically significant level. This study also examined the structure of TbetaR-I and TbetaR-II in normal human oral keratinocytes in vitro and in 14 human oral carcinoma cell lines with known responses to TGF-beta1. No structural abnormalities of TbetaR-II were present in the normal keratinocytes or in 13 of 14 malignant cell lines; in one line, there were both normal and mutant forms of TbetaR-II, the latter being in the form of a frameshift mutation with the insertion of a single adenine base (bases 709-718, codons 125-128), predicting a truncated receptor having no kinase domain. No defects were present in TbetaR-I. The structures of TbetaR-I and TbetaR-II did not correlate with growth inhibition by TGF-beta1. The data suggest that decreased expression of TGF-beta receptors, rather than structural defects of these genes, may be important in oral epithelial tumour progression. In order to examine the functional significance of a specific decrease in TbetaR-II expression, a dominant-negative TbetaR-II construct (dnTbetaR-II) was transfected into a human oral carcinoma cell line with a normal TGF-beta receptor profile and known to be markedly inhibited by TGF-beta1. In those clones that overexpressed the dnTbetaR-II, growth inhibition and Smad binding activity were decreased, whilst the regulation of Fra-1 and collagenase-1 remained unchanged following treatment with TGF-beta1. The results demonstrate that a decrease in TbetaR-II relative to TbetaR-I leads to selective gene regulation with loss of growth inhibition but continued transcription of AP-1-dependent genes that are involved in the regulation of the extracellular matrix.
Leptospirosis is a widespread zoonotic infection that primarily affects residents of tropical regions, but causes infections in animals and humans in temperate regions as well. The agents of leptospirosis comprise several members of the genus Leptospira, which also includes non-pathogenic, saprophytic species. Leptospirosis can vary in severity from a mild, non-specific illness to severe disease that includes multi-organ failure and widespread endothelial damage and hemorrhage. To begin to investigate how pathogenic leptospires affect endothelial cells, we compared the responses of two endothelial cell lines to infection by pathogenic versus non-pathogenic leptospires. Microarray analyses suggested that pathogenic L. interrogans and non-pathogenic L. biflexa triggered changes in expression of genes whose products are involved in cellular architecture and interactions with the matrix, but that the changes were in opposite directions, with infection by L. biflexa primarily predicted to increase or maintain cell layer integrity, while L. interrogans lead primarily to changes predicted to disrupt cell layer integrity. Neither bacterial strain caused necrosis or apoptosis of the cells even after prolonged incubation. The pathogenic L. interrogans, however, did result in significant disruption of endothelial cell layers as assessed by microscopy and the ability of the bacteria to cross the cell layers. This disruption of endothelial layer integrity was abrogated by addition of the endothelial protective drug lisinopril at physiologically relevant concentrations. These results suggest that, through adhesion of L. interrogans to endothelial cells, the bacteria may disrupt endothelial barrier function, promoting dissemination of the bacteria and contributing to severe disease manifestations. In addition, supplementing antibiotic therapy with lisinopril or derivatives with endothelial protective activities may decrease the severity of leptospirosis.
Objective. Calcium pyrophosphate dihydrate (CPPD) and basic calcium phosphate (BCP) crystals occur in up to 60% of osteoarthritic joints and predict an increased severity of arthritis. Articular cartilage vesicles (ACVs) generate CPPD crystals in the presence of ATP and BCP crystals with added β-glycerophosphate. While ACVs are present in normal articular cartilage, they mineralize primarily in cartilage from osteoarthritic joints. The aim of this study was to explore the hypothesis that ACV mineralization is regulated by components of the surrounding extracellular matrix. Methods. Porcine ACVs were embedded in aga-rose gels containing type II and/or type I collagen and/or proteoglycans. Mineralization was measured as45Ca accumulation stimulated by ATP or β-glycerophosphate and reflects both nucleation and growth. Synthetic CPPD and BCP crystals were embedded in similar gels to isolate the effect of matrix components on crystal growth. Results. After establishing baseline responsiveness of ACVs to ATP and β-glycerophosphate in agarose gels, we examined the ability of ATP and β-glycerophosphate to stimulate mineral formation in gels containing various matrix components. Type II collagen suppressed the ability of ATP to stimulate mineralization, while a combination of type II plus type I collagen increased the effect of ATP and β -glycerophosphate on mineralization. Type I collagen affected ACV mineralization in a dose-responsive manner. Neither type of collagen significantly affected crystal growth or levels of mineralization-regulating enzymes. Proteoglycans suppressed mineral formation by ACVs in gels containing both type I and type II collagen. Conclusion. Cartilage matrix changes that occur with osteoarthritis, such as increased quantities of type I collagen and reduced proteoglycan levels, may promote ACV mineralization.
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