Transcriptional interference is the influence, generally suppressive, of one active transcriptional unit on another unit linked in cis. Its wide occurrence in experimental systems suggests that it may also influence transcription in many loci, but little is known about its precise nature or underlying mechanisms. Here we report a study of the interaction of two nearly identical transcription units juxtaposed in various arrangements. Each reporter gene in the constructs has its own promoter and enhancer and a strong polyadenylation signal. We used recombinase-mediated cassette exchange (RMCE) to insert the constructs into previously tagged genomic sites in cultured cells. This strategy also allows the constructs to be assessed in both orientations with respect to flanking chromatin. In each of the possible arrangements (tandem, divergent, and convergent), the presence of two genes strongly suppresses expression of both genes compared to that of an identical single gene at the same integration site. The suppression is most severe with the convergent arrangement and least severe in total with the divergent arrangement, while the tandem arrangement is most strongly influenced by the integration site and the genes' orientation within the site. These results suggest that transcriptional interference could underlie some position effects and contribute to the regulation of genes in complex loci.
Endogenous levels of estradiol and progesterone fluctuate in the peripheral blood of premenopausal women during the reproductive cycle. We studied the effects of these sex hormones on HIV-1 replication in peripheral blood mononuclear cells (PBMCs). We compared HIV-1 replication in PBMCs infected in the presence of mid-secretory (high concentrations) and mid-proliferative (low concentrations) or in the absence of sex hormones. With PBMCs from men, we used concentrations of estradiol and progesterone that are normally present in their plasma. Our findings demonstrate that mid-proliferative phase conditions increased, and mid-secretory phase conditions decreased, HIV-1 replication. To determine if sex hormones affect specific stages of the viral life cycle we performed real-time PCR assays and found decreased levels of HIV-1 integration in the mid-secretory phase and increased levels viral transcription in the mid-proliferative phase. No significant effects on HIV-1 reverse transcription or on CCR5 expression were found. In addition, we assessed hormonal regulation of the HIV-1 LTR in the absence of the viral regulatory protein Tat. We observed that mid-proliferative hormone levels enhanced, whereas mid-secretory hormone concentrations reduced, the activity of the LTR. These findings demonstrate that in HIV-1-infected cells, estradiol and progesterone regulate HIV-1 replication most likely by directly altering HIV-1 transcriptional activation. An additional indirect mechanism of sex hormone regulation of cytokine and chemokine secretion cannot be excluded.
We used transgenic mice to identify cis-active regions of the human pulmonary surfactant protein C (SP-C) gene that impart tissue- and cell-specific expression in vivo in the lung. Approximately 3.7 kb of genomic SP-C DNA upstream of the transcription start site was sufficient to direct chloramphenicol acetyltransferase (CAT) reporter gene expression specifically in bronchiolar and alveolar epithelial cells of the lung. To further define cis-active regulatory elements that mediate cell-specific expression, we tested deletions of the parental 3.7-kb human SP-C sequence in transgenic mice. Tissue CAT assays of mice generated with truncations or overlapping internal deletions of the 3.7-kb construct functionally map alveolar cell-specific regulatory elements to within -215 bp of the SP-C promoter. Analysis of SP-C promoter deletions demonstrate that sequences between -3.7 kb and -1.9 kb contain enhancer sequences that stimulate SP-C transgene expression. In situ hybridization studies demonstrate that deletion of the -1,910- to -215-bp region abolishes the ectopic bronchiolar expression seen with the original 3.7-kb SP-C promoter construct. Comparison of sequences from -215 to +1 bp identified consensus binding sites for the homeodomain transcription factor thyroid transcription factor-1 (TTF-1). Cotransfection assays of the human 3.7-kb SP-C or -1,910- to -215-bp SP-C deletion construct with a TTF-1 expression plasmid demonstrates that TTF-1 transactivates the human SP-C gene. These results suggest that the TTF-1 cis-active sites are important in directing cell-specific expression of the SP-C gene in vivo.
This is, to our knowledge, the first study to compare ectocervix and endometrium in a tissue explant model of HIV-1 infection and to demonstrate greater HIV-1 transcription in the ectocervix. Our results suggest that the ectocervix is more conducive to HIV-1 replication than is the endometrium and that IL-6 enhances HIV-1 transcription at this site. Thus, the ectocervix is an important site to be considered in heterosexual transmission of HIV-1.
BackgroundIn addition to activated T cells, the immune checkpoint inhibitor “V domain-containing Ig suppressor of T-cell activation” (VISTA) is expressed by myeloid cell types, including macrophages and neutrophils. The importance of VISTA expression by myeloid cells to antibody-induced arthritis and its potential for relevance in human disease was evaluated.MethodsVISTA was immunolocalized in normal and arthritic human synovial tissue sections and synovial tissue lysates were subjected to western blot analysis. The collagen antibody-induced arthritis model (CAIA) was performed with DBA/1 J mice treated with antibodies against VISTA and with VISTA-deficient mice (V-KO). Total mRNA from arthritic joints, spleens, and cultured macrophages was analyzed with NanoString arrays. Cytokines secreted by splenic inflammatory macrophages were determined. In-vitro chemotaxis and signal transduction assays were performed with cultured macrophages.ResultsVISTA protein was localized to synovial membrane cells, neutrophils, and scattered cells in lymphocyte-rich foci and was detected by western blot analysis in normal synovium and synovium from rheumatoid arthritis patients. Deficiency of VISTA or treatment of mice with anti-VISTA monoclonal antibodies attenuated CAIA. Joint damage and MMP-3 expression were significantly reduced in V-KO mice. Surface expression of C5a receptor was reduced on monocytes, neutrophils, and cultured macrophages from V-KO. Upon Fc receptor engagement in vitro, gene expression by V-KO macrophages was altered profoundly compared to WT, including a significant induction of IL-1 receptor antagonist (IL1rn).ConclusionsVISTA expression supports immune-complex inflammation in CAIA and VISTA is expressed in human synovium. VISTA supports optimal responses to C5a and modulates macrophage responses to immune complexes.Electronic supplementary materialThe online version of this article (doi:10.1186/s13075-017-1474-y) contains supplementary material, which is available to authorized users.
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