CD47 is a transmembrane protein that is a marker of “self”. CD47 binding to its cognate receptor in leukocytes and macrophages, signal regulatory protein alpha (SIRPα), causes inhibition of inflammatory cell attachment. We hypothesized that immobilization of recombinant CD47 on polymeric surfaces would reduce inflammation. Recombinant CD47 was appended to polyvinyl chloride (PVC) or polyurethane (PU) surfaces via photoactivation chemistry. Cell culture studies showed that CD47 immobilization significantly reduced human neutrophil (HL-60) and human monocyte derived macrophage (MDM) (THP-1) attachment to PVC and PU respectively. A neutralizing antibody, directed against SIRPα, inhibited THP-1 and HL-60 binding to PU and PVC surfaces respectively. This antibody also increased the level of SIRPα tyrosine phosphorylation, thereby indicating a direct role for SIRPα mediated signaling in preventing inflammatory cell attachment. Studies using human blood in an ex vivo flow-loop showed that CD47 modified PVC tubing significantly reduced cell binding and neutrophil activation compared to unmodified tubing or poly-2-methoxy-ethylacrylate (PMEA) coated tubing. In ten-week rat subdermal implants, CD47 functionalized PU films showed a significant reduction in markers of MDM mediated oxidative degradation compared to unmodified PU. In conclusion, CD47 functionalized surfaces can resist inflammatory cell interactions both in vitro and in vivo.
The morphological and inflammatory responses of adherent macrophages are correlated to evaluate the biocompatibility of surfaces. Monocyte derived macrophage, THP-1, and THP-1 cells expressing GFP-actin chimeric protein were seeded onto glass, polyurethane (PU), and glass surface modified with quaternary ammonium salt functionalized chitosan (CH-Q) and hyaluronic acid (HA). Using confocal microscopy, the surface area, volume and 3-D shape factor of adherent macrophages was quantified. For comparison, functional consequences of cell-surface interactions that activate macrophages and thereby elicit secretion of a pro-inflammatory cytokine were evaluated. Using an enzyme linked immune sorbent assay, tumor necrosis factor-alpha (TNF-α) was measured. On glass, macrophages exhibited mainly an amoeboid shape, exhibited the largest surface area, volume, and 3-D shape factor and produced the most TNF-α. On PU, macrophages displayed mainly a hemispherical shape, exhibited an intermediate volume, surface area and 3-D shape factor, and produced moderate TNF-α. In contrast, on CH-Q and HA surfaces, macrophages were spherical, exhibited the smallest volume, surface area, and 3-D shape factor, and produced the least TNF-α. These studies begin to validate the use of GFP-actin modified MDM as a novel tool to correlate cell morphology with inflammatory cell response.
Reported associations of ELAC2/HPC2, RNASEL/HPC1, and MSR1 with prostate cancer have been inconsistent and understudied in African Americans. We evaluated the role of 16 sequence variants in these genes with prostate cancer using 888 European American and 131 African American cases, and 473 European American and 163 African American, controls. We observed significant differences in ELAC2, RNASEL, and MSR1 allele frequencies by race. However, we did not observe significant associations between prostate cancer and any variants examined for both races combined. Associations were observed when stratified by race, family history, or disease severity. European American men homozygous for MSR1 IVS7delTTA had an elevated risk for localized stage [odds ratio, (OR), 3.5; 95% confidence interval (95% CI), 1.4-6.9], low-grade (OR, 3.2; 95% CI, 1.4-7.3) disease overall, and with low-grade (OR, 2.9; 95% CI, 1.2-7.2) or latestage disease (OR, 5.2; 95% CI, 1
CD47 is a ubiquitously expressed transmembrane protein that, through signaling mechanisms mediated by signal regulatory protein alpha (SIRPα1), functions as a biological marker of ‘self-recognition’. We showed previously that inflammatory cell attachment to polymeric surfaces is inhibited by the attachment of biotinylated recombinant CD47 (CD47B). We test herein the hypothesis that CD47-modified blood conduits can reduce platelet and neutrophil activation under clinically relevant conditions. We appended a poly-lysine tag to the C-terminus of recombinant CD47 (CD47L) allowing for covalent linkage to the polymer. SIRPα1 expression was confirmed in isolated platelets. We then compared biocompatibility between CD47B and CD47L functionalized polyvinyl chloride (PVC) surfaces and unmodified control PVC surfaces. Quantitative and Qualitative analysis of blood cell attachment to CD47B and CD47L surfaces, via scanning electron microscopy, showed strikingly fewer platelets attached to CD47 modified surfaces compared to control. Flow cytometry analysis showed that activation markers for neutrophils (CD62L) and platelets (CD62P) exposed to CD47 modified PVC were equivalent to freshly acquired control blood, while significantly elevated in the unmodified PVC tubing. In addition, ethylene oxide gas sterilization did not inhibit the efficacy of the CD47 modification. In conclusion, CD47 modified PVC inhibits both the adhesion and activation of platelets and neutrophils.
We previously characterized multiple interactions between chemokine and opioid G-protein coupled receptors (GPCR), and we found both µ and δ-opioid receptors cross-desensitize CCR1, CCR2, CCR5, but not CXCR4. Here we report that the κ-opioid receptor (KOR) is able to cross-desensitize CXCR4, and this phenomenon is bi-directional. Chemotactic responses by KOR activation are diminished with prior activation of CXCR4. Additionally, calcium mobilization assays show these cross-desensitization processes occur within seconds of receptor activation, and target receptor internalization is not responsible for desensitization between these receptors. These results have implications for several essential processes including neuronal and lymphocyte development, inflammatory responses, and pain/sensitivity.
Studies from a number of laboratories suggest that modulation of cytokine expression plays an integral role in the immunomodulatory activity of opioids. Previously, our laboratory reported that activation of the mu-opioid receptor induced the expression of CCL2, CCL5, and CXCL10, as well as CCR5 and CXCR4. Previous work has also suggested the possibility that TGF-beta may participate in the opioid-induced regulation of immune competence, and in the present study, we set out to determine the role of this cytokine in the control of chemokine and chemokine receptor expression. We found that D-ala(2),N-Me-Phe(4)-Gly-ol(5)enkephalin (DAMGO), a highly selective mu-opioid agonist, induced the expression of TGF-beta1 expression at the protein and mRNA levels. In turn, the addition of TGF-beta1 was found to induce CCL5 and CXCR4 expression but not CCL2, CXCL10, or CCR5. Further analysis showed that pretreatment with neutralizing anti-TGF-beta1 blocked the ability of DAMGO to induce CCL5 or CXCR4. Similarly, pretreatment with cycloheximide prevented CCL5 or CXCR4 mRNA expression, consistent with the observation that DAMGO induction of chemokine and chemokine receptor expression requires newly synthesized TGF-beta1 protein. These results describe a common molecular basis for the activation of chemokine and chemokine receptor expression and may permit the development of strategies to inhibit certain undesirable immunological properties of micro-opioid agonists such as morphine and heroin.
We have previously established that recombinant CD47 can ameliorate the inflammatory response to synthetic polymeric surfaces. Here, we begin to profile, at the transcriptional, translational and cell signaling level, the inflammatory cell response when blood interacts with CD47 modified polyvinyl chloride (PVC) (CD47-PVC). We used qPCR arrays to compare transcriptional changes between human whole blood exposed to CD47-PVC or PVC. Transcription of IL1F5, IL1F10, IL17F, CCL3, CCL8, CCL28, CXCL12, and CXCL13 was upregulated in blood exposed to PVC, compared to CD47-PVC. The increase in CCL3 and CCL8 transcription correlated with an increase in the chemokines' presence in the plasma. Exposure of blood to CD47-PVC resulted in an increase, compared to PVC, in transcription of CCL2, CCL4, CCL20, CXCL1, TGFβ3, GDF3, GDF10, CD40LG, and TNFSF10. CD47-PVC exposure resulted in an increase of the following matrix metalloproteinase related genes: MMP1, MMP7, MMP13, and MMP16. Phosflow cytometry, and assays examining transcription factor binding, cell attachment, and genome wide chromatin association indicated that members of the JAK-STAT signaling pathway, particularly JAK2 and STAT5, mediate inflammatory cell interactions with CD47-PVC. Our data demonstrate that differential molecular responses to CD47 involve downregulation of cytokines, upregulation of MMPs, and JAK/STAT signaling mechanisms.
Previous studies have demonstrated that KOR activation results in decreased susceptibility to infection by HIV-1 in human PBMCs. In the present studies, we have found this effect is, in part, a result of down-regulation of the major HIV-1 coreceptor, CXCR4. Using a combination of biochemical approaches, our results show that CXCR4 protein and mRNA levels were reduced significantly following KOR activation. We evaluated the nature of the signaling pathway(s), which were induced by KOR activation, using transcription factor-binding array analysis and comparing extracts from control and KOR-activated cells. We determined that the IRFs and STATs were induced following KOR activation, and these events were important for the inhibition of CXCR4 expression. Using chemical inhibitors and siRNA constructs, we determined that JAK2, STAT3, and IRF2 were critical members of this signal transduction pathway. Immediately following KOR activation, JAK2 was phosphorylated, and this was required for the phosphorylation/activation of STAT3. Moreover, IRF2 mRNA and protein expression were also up-regulated, and further studies using ChIP analysis showed that IRF2 was induced to bind in vivo to the CXCR4 promoter. This is the first report detailing the initiation of a KOR-induced JAK2/STAT3 and IRF2 signaling cascade, and these pathways result in substantial down-regulation of CXCR4 expression. The capacity of KOR to down-regulate CXCR4 expression may provide a strategy for the development of novel therapeutics for the inhibition of HIV replication.
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