Human retinal pigment epithelial (RPE) cells form part of the blood-retina barrier where they pot... more Human retinal pigment epithelial (RPE) cells form part of the blood-retina barrier where they potentially can regulate leucocyte function. RPE cells are known to secrete several cytokines in response to stimulation by other cytokines. Anaphylatoxin C5a, a potent inflammatory mediator produced during complement activation, binds to G-protein coupled C5a receptors (C5aR) on monocytes/macrophages and releases various cytokines from the cells. We previously reported that the human RPE cell line ARPE-19 possesses C5aR and expresses IL-8 mRNA in response to C5a stimulation. In this study, we used a primary human RPE cell line (RPE43) and found that C5a induces increased expression of IL-1beta, IL-6, MCP-1 and GM-CSF mRNAs as well as IL-8 mRNA. ARPE-19 cells showed similar increases in the same cytokines. Interestingly, the kinetics of expression of the various cytokines differed. These results provide further evidence that C5a stimulation of RPE cells may play a role in regulating leucocyte function during ocular inflammation in which there is complement activation.
Arteriosclerosis, Thrombosis, and Vascular Biology, 2010
Objective-Leukocyte-platelet complexes are critical for the initiation and progression of atheros... more Objective-Leukocyte-platelet complexes are critical for the initiation and progression of atherosclerosis and restenosis, but the mechanism by which this process promotes vascular injury is incompletely defined. Given that complement activation can affect leukocytes and platelets, we investigated whether the presence of decay accelerating factor (DAF or CD55), an intrinsic complement regulator, protects against the development of vascular disease.
In contrast to immune restrictions that pertain for solid organ transplants, the tolerogenic mili... more In contrast to immune restrictions that pertain for solid organ transplants, the tolerogenic milieu of the eye permits successful corneal transplantation without systemic immunosuppression, even across a fully MHC disparate barrier. Here we show that recipient and donor expression of decay accelerating factor (DAF or CD55), a cell surface C3/C5 convertase regulator recently shown to modulate T-cell responses, is essential to sustain successful corneal engraftment. Whereas wild-type (WT) corneas transplanted into multiple minor histocompatibility antigen (mH), or HY disparate WT recipients were accepted, DAF's absence on either the donor cornea or in the recipient bed induced rapid rejection. Donor or recipient DAF deficiency led to expansion of donor-reactive IFN-gamma producing CD4(+) and CD8(+) T cells, as well as inhibited antigen-induced IL-10 and TGF-beta, together demonstrating that DAF deficiency precludes immune tolerance. In addition to demonstrating a requisite role for DAF in conferring ocular immune privilege, these results raise the possibility that augmenting DAF levels on donor corneal endothelium and/or the recipient bed could have therapeutic value for transplants that clinically are at high risk for rejection.
Escherichia coli promoters for transcription of ribosomal and tRNAs are greatly activated by an A... more Escherichia coli promoters for transcription of ribosomal and tRNAs are greatly activated by an A+T-rich "UP" element upstream of the -35 region. These same promoters have also been found to otherwise deviate in several respects from the consensus promoter sequence. Here we present the results of a kinetic characterization of the interaction of Escherichia coli RNA polymerase with UP elementcontaining promoters which by virtue of consensus or near-consensus sequence features should be among the most optimal that can be encountered by Escherichia coli RNA polymerase. We show that for such promoters, (1) the second-order rate constant describing formation of the initial (closed) complex is close to that expected for a diffusion-limited process, (2) the extent of activation by the UP element is temperaturesensitive, (3) the UP element accelerates a process after DNA binding by RNA polymerase, and (4) the presence of the UP element delays promoter clearance upon addition of nucleoside triphosphates to preformed RNA polymerase-promoter complexes. Finally, we provide evidence in support of models which describe the DNA melting process accompanying open complex formation as initiating in the -10 promoter region and progressing in the downstream direction.
The p R and p RM promoters of bacteriophage lambda direct transcription in divergent directions f... more The p R and p RM promoters of bacteriophage lambda direct transcription in divergent directions from start sites separated by 83 phosphodiester bonds. We had previously shown that the presence of an RNA polymerase at p R interfered with open complex formation at p RM and that this effect was alleviated by the deletion of 10 bp between the two promoters. Here we present a detailed characterization of the dependence of the interference on the interpromoter distance. It was found that the reduced interference between the two promoters is unique to the 10-bp deletion. The relief of interference was demonstrated to be due to the facilitation of a step subsequent to RNA polymerase binding to the p RM promoter. A model to explain these observations is proposed. A search of known Escherichia coli promoters identified three pairs of divergent promoters with similar separations to those investigated here.
Escherichia coli promoters for transcription of ribosomal and tRNAs are greatly activated by an A... more Escherichia coli promoters for transcription of ribosomal and tRNAs are greatly activated by an A+T-rich "UP" element upstream of the -35 region. These same promoters have also been found to otherwise deviate in several respects from the consensus promoter sequence. Here we present the results of a kinetic characterization of the interaction of Escherichia coli RNA polymerase with UP elementcontaining promoters which by virtue of consensus or near-consensus sequence features should be among the most optimal that can be encountered by Escherichia coli RNA polymerase. We show that for such promoters, (1) the second-order rate constant describing formation of the initial (closed) complex is close to that expected for a diffusion-limited process, (2) the extent of activation by the UP element is temperaturesensitive, (3) the UP element accelerates a process after DNA binding by RNA polymerase, and (4) the presence of the UP element delays promoter clearance upon addition of nucleoside triphosphates to preformed RNA polymerase-promoter complexes. Finally, we provide evidence in support of models which describe the DNA melting process accompanying open complex formation as initiating in the -10 promoter region and progressing in the downstream direction.
Human retinal pigment epithelial (RPE) cells form part of the blood-retina barrier where they pot... more Human retinal pigment epithelial (RPE) cells form part of the blood-retina barrier where they potentially can regulate leucocyte function. RPE cells are known to secrete several cytokines in response to stimulation by other cytokines. Anaphylatoxin C5a, a potent inflammatory mediator produced during complement activation, binds to G-protein coupled C5a receptors (C5aR) on monocytes/macrophages and releases various cytokines from the cells. We previously reported that the human RPE cell line ARPE-19 possesses C5aR and expresses IL-8 mRNA in response to C5a stimulation. In this study, we used a primary human RPE cell line (RPE43) and found that C5a induces increased expression of IL-1beta, IL-6, MCP-1 and GM-CSF mRNAs as well as IL-8 mRNA. ARPE-19 cells showed similar increases in the same cytokines. Interestingly, the kinetics of expression of the various cytokines differed. These results provide further evidence that C5a stimulation of RPE cells may play a role in regulating leucocyte function during ocular inflammation in which there is complement activation.
Arteriosclerosis, Thrombosis, and Vascular Biology, 2010
Objective-Leukocyte-platelet complexes are critical for the initiation and progression of atheros... more Objective-Leukocyte-platelet complexes are critical for the initiation and progression of atherosclerosis and restenosis, but the mechanism by which this process promotes vascular injury is incompletely defined. Given that complement activation can affect leukocytes and platelets, we investigated whether the presence of decay accelerating factor (DAF or CD55), an intrinsic complement regulator, protects against the development of vascular disease.
In contrast to immune restrictions that pertain for solid organ transplants, the tolerogenic mili... more In contrast to immune restrictions that pertain for solid organ transplants, the tolerogenic milieu of the eye permits successful corneal transplantation without systemic immunosuppression, even across a fully MHC disparate barrier. Here we show that recipient and donor expression of decay accelerating factor (DAF or CD55), a cell surface C3/C5 convertase regulator recently shown to modulate T-cell responses, is essential to sustain successful corneal engraftment. Whereas wild-type (WT) corneas transplanted into multiple minor histocompatibility antigen (mH), or HY disparate WT recipients were accepted, DAF's absence on either the donor cornea or in the recipient bed induced rapid rejection. Donor or recipient DAF deficiency led to expansion of donor-reactive IFN-gamma producing CD4(+) and CD8(+) T cells, as well as inhibited antigen-induced IL-10 and TGF-beta, together demonstrating that DAF deficiency precludes immune tolerance. In addition to demonstrating a requisite role for DAF in conferring ocular immune privilege, these results raise the possibility that augmenting DAF levels on donor corneal endothelium and/or the recipient bed could have therapeutic value for transplants that clinically are at high risk for rejection.
Escherichia coli promoters for transcription of ribosomal and tRNAs are greatly activated by an A... more Escherichia coli promoters for transcription of ribosomal and tRNAs are greatly activated by an A+T-rich "UP" element upstream of the -35 region. These same promoters have also been found to otherwise deviate in several respects from the consensus promoter sequence. Here we present the results of a kinetic characterization of the interaction of Escherichia coli RNA polymerase with UP elementcontaining promoters which by virtue of consensus or near-consensus sequence features should be among the most optimal that can be encountered by Escherichia coli RNA polymerase. We show that for such promoters, (1) the second-order rate constant describing formation of the initial (closed) complex is close to that expected for a diffusion-limited process, (2) the extent of activation by the UP element is temperaturesensitive, (3) the UP element accelerates a process after DNA binding by RNA polymerase, and (4) the presence of the UP element delays promoter clearance upon addition of nucleoside triphosphates to preformed RNA polymerase-promoter complexes. Finally, we provide evidence in support of models which describe the DNA melting process accompanying open complex formation as initiating in the -10 promoter region and progressing in the downstream direction.
The p R and p RM promoters of bacteriophage lambda direct transcription in divergent directions f... more The p R and p RM promoters of bacteriophage lambda direct transcription in divergent directions from start sites separated by 83 phosphodiester bonds. We had previously shown that the presence of an RNA polymerase at p R interfered with open complex formation at p RM and that this effect was alleviated by the deletion of 10 bp between the two promoters. Here we present a detailed characterization of the dependence of the interference on the interpromoter distance. It was found that the reduced interference between the two promoters is unique to the 10-bp deletion. The relief of interference was demonstrated to be due to the facilitation of a step subsequent to RNA polymerase binding to the p RM promoter. A model to explain these observations is proposed. A search of known Escherichia coli promoters identified three pairs of divergent promoters with similar separations to those investigated here.
Escherichia coli promoters for transcription of ribosomal and tRNAs are greatly activated by an A... more Escherichia coli promoters for transcription of ribosomal and tRNAs are greatly activated by an A+T-rich "UP" element upstream of the -35 region. These same promoters have also been found to otherwise deviate in several respects from the consensus promoter sequence. Here we present the results of a kinetic characterization of the interaction of Escherichia coli RNA polymerase with UP elementcontaining promoters which by virtue of consensus or near-consensus sequence features should be among the most optimal that can be encountered by Escherichia coli RNA polymerase. We show that for such promoters, (1) the second-order rate constant describing formation of the initial (closed) complex is close to that expected for a diffusion-limited process, (2) the extent of activation by the UP element is temperaturesensitive, (3) the UP element accelerates a process after DNA binding by RNA polymerase, and (4) the presence of the UP element delays promoter clearance upon addition of nucleoside triphosphates to preformed RNA polymerase-promoter complexes. Finally, we provide evidence in support of models which describe the DNA melting process accompanying open complex formation as initiating in the -10 promoter region and progressing in the downstream direction.
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Papers by M. Strainic