Mahdad Karimi

A critical assessment of the factors affecting reporter gene assays for promoter SNP function : a reassessment of -308 TNF polymorphism function using a novel integrated reporter system

One of the greatest challenges facing genetics is the development of strategies to identify functionally relevant genetic variation. The most common test of function is the reporter gene assay, in which allelic regulatory regions are used to drive the expression of a reporter gene, and differences in expression in a cell line after transient transfection are taken to be a reflection of the polymorphism. Many studies have reported small differences in single nucleotide polymorphism (SNP)-specific reporter activity, including the tumor necrosis factor (TNF) G−308A polymorphism. However, we have established that many variables inherent in the reporter gene approach can account for the reported allelic differences. Variables, such as the amount of DNA used in transfection, the amount of transfection control vector used, the method of transfection, the growth history of the host cells, and the quality and purity of DNA used, all influence TNF −308 SNP-specific transient reporter gene assays and serve as a caution for those researchers who apply this method to the functional assessment of polymorphic promoter sequences. We have developed an integrated reporter system that obviates some of these problems and shows that the TNF G−308A polymorphism is functionally relevant in this improved assay, thus confirming that the −308A allele expresses at a higher level compared with the −308G allele.

TNF and Phorbol Esters Induce Lymphotoxin-β Expression through Distinct Pathways Involving Ets and NF-κB Family Members

Lymphotoxin-β (LT-β) is a transmembrane protein expressed mainly on cells of the lymphoid lineage. It associates with LT-α on the cell surface to form the heterotrimeric LTα1,β2 complex, which binds the LT-β receptor. Membrane lymphotoxin is a crucial signal for the appropriate development of lymph nodes and Peyer’s patches, and in the formation of B and T cell compartments in the spleen. In this study we report the characterization of mechanisms governing both basal as well as PMA- and TNF-inducible regulation of the human LT-β promoter. Using a Jurkat T cell line, induction with either PMA or TNF resulted in an increase in mRNA levels compared with uninduced values. This induction corresponded to an increase in transcriptional activity of the human LT-β promoter. Mutational and deletion analysis demonstrated the importance of Ets and NF-κB motifs in the regulation of basal transcription. Furthermore, the ability of PMA to induce activity was lost in the Ets mutant constructs. Interestingly, the same mutation had little effect on the ability of TNF to induce transcription of the LT-β promoter. TNF inducibility was localized to the NF-κB site positioned at −83 of the promoter sequence. Thus, it appears that the Ets site, although playing a major role in PMA induction, did not mediate TNF inducibility. Therefore, our study suggests that alternative signaling pathways may be present to induce the expression of LT-β in response to different immunological or inflammatory stimuli.

New thalidomide analogues derived through Sonogashira or Suzuki reactions and their TNF expression inhibition profiles

A library of new thalidomide C4/5 analogues containing either a phenyl or alkyne tether were synthesized using Sonogashira or Suzuki cross coupling reactions from their aryl halogenated precursors. All thalidomide analogues were tested for their ability to inhibit the expression of the proinflammatory cytokine Tumor Necrosis Factor (TNF). More explicitly the use of a novel reporter system utilizing the promoter region of the TNF gene in a human T-cell line provided a rapid and effective measure of NFkappaB transcriptional activity. Several compounds either containing either an aryl-isobutyl or aryl-isopropoxy group were the most effective in inhibiting TNF expression, and were several times more active than thalidomide itself. Five of the more active derivatives indicated an apoptotic response while one of these compounds, containing an aldehyde tether, showed possible influence of cell cycling effects.

Integration site-specific transcriptional reporter gene analysis using Flp recombinase targeted cell lines

While high-throughput genome-wide approaches are useful to identify important regulatory regions, traditional reporter gene methodologies still represent the ultimate steps in fine structure analysis of transcriptional control elements. However, there are still several inherent limitations in the currently available transient and stable transfection systems often leading to aberrant function of specific cis elements. In this study we overcome these problems and have developed a novel and widely applicable system that permits the comparison of transcriptional reporter gene activities following site-specific genomic integration. By using Flp recombinase-mediated integration, the system allows the integration and expression of a series of reporter gene constructs at exactly the same genomic location and orientation in all cells of any one culture. The resulting reporter gene lines carry a single reporter gene, which is incorporated within a measurably active chromatinized setting, thus more closely reflecting the endogenous gene environment.

The CD30 gene promoter microsatellite binds transcription factor Yin Yang 1 (YY1) and shows genetic instability in anaplastic large cell lymphoma

CD30 is a member of the TNF receptor family. Our interest lies in understanding the control of CD30 expression, particularly as its over‐expression provides a diagnostic marker for a subset of non‐Hodgkins lymphomas, particularly anaplastic large cell lymphoma (ALCL), and because anti‐CD30 treatment has been shown to be efficacious. We have identified a number of regulatory regions, including an Sp1 element in the minimal promoter, and a downstream promoter element that is required for start site selection. The discovery of both an activating AP1 site and an upstream microsatellite that represses transcriptional activity of CD30 suggests that this region is involved in dysregulation of CD30 expression. We have now identified the major microsatellite binding activity as transcription factor Yin Yang 1 by both one‐hybrid cDNA library screening and peptide mass fingerprinting. Due to the strong repressive effect of the microsatellite, we also investigated whether microsatellite instability may induce changes in CD30 expression and hence explain the over‐expression of CD30 in ALCL. Laser capture microdissection of ALCL biopsies and CD30 microsatellite typing indicated that the neoplastic cells show a high degree of variation, but this does not correlate with high CD30 expression seen in ALCL. Copyright

Cell- and stage-specific chromatin structure across the Complement receptor 2 (CR2/CD21) promoter coincide with CBF1 and C/EBP-β binding in B cells

Stringent developmental transcription requires multiple transcription factor (TF) binding sites, cell-specific expression of signaling molecules, TFs and co-regulators and appropriate chromatin structure. During B-lymphopoiesis, human Complement receptor 2 (CR2/CD21) is detected on immature and mature B cells but not on B cell precursors and plasma cells. We examined cell- and stage-specific human CR2 gene regulation using cell lines modeling B-lymphopoiesis. Chromatin accessibility assays revealed a region between -409 and -262 with enhanced accessibility in mature B cells and pre-B cells, compared to either non-lymphoid or plasma cell-types, however, accessibility near the transcription start site (TSS) was elevated only in CR2-expressing B cells. A correlation between histone acetylation and CR2 expression was observed, while histone H3K4 dimethylation was enriched near the TSS in both CR2-expressing B cells and non-expressing pre-B cells. Candidate sites within the CR2 promoter were identified which could regulate chromatin, including a matrix attachment region associated with CDP, SATB1/BRIGHT and CEBP-beta sites as well as two CBF1 sites. ChIP assays verified that both CBF1 and C/EBP-beta bind the CR2 promoter in B cells raising the possibility that these factors facilitate or respond to alterations in chromatin structure to control the timing and/or level of CR2 transcription.

Novel phthalimide derivatives with TNF-α and IL-1β expression inhibitory and apoptotic inducing properties

Modulation of the immune system is an emerging concept in the control of tumor growth. Bearing in mind the pharmacological properties of thalidomide and its phthalimide derivatives, we describe here the structural design, synthesis and pharmacological evaluation of N-acylhydrazones derived from phthalimide. The ability of these N-acylhydrazones in inhibiting the secretion of TNF-α in stimulated cells as well as in inhibiting the transcription of the TNF-α gene was evaluated. We identified N-acylhydrazones 6b and 9c, which substantially impaired TNF-α secretion, expression and reduced IL-1β production similar to thalidomide or Revlimid. N-Acylhydrazone 9c was also able to induce apoptosis in Jurkat cells, however it does not have either antiproliferative properties or cytotoxicity for mouse splenocytes. Beyond that, we have assayed the ability of these compounds to induce cell death and a number of them are able to induce apoptosis.

Analysis of tandem E-box motifs within human Complement receptor 2 (CR2/CD21) promoter reveals cell specific roles for RP58, E2A, USF and localized chromatin accessibility.

Complement receptor 2 (CR2/CD21) plays an important role in the generation of normal B cell immune responses. As transcription appears to be the prime mechanism via which surface CR2/CD21 expression is controlled, understanding transcriptional regulation of this gene will have broader implications to B cell biology. Here we report opposing, cell-context specific control of CR2/CD21 promoter activity by tandem E-box elements, spaced 22 bp apart and within 70 bp of the transcription initiation site. We have identified E2A and USF transcription factors as binding to the distal and proximal E-box sites respectively in CR2-positive B-cells, at a site that is hypersensitive to restriction enzyme digestion compared to non-expressing K562 cells. However, additional unidentified proteins have also been found to bind these functionally important elements. By utilizing a proteomics approach we have identified a repressor protein, RP58, binding the distal E-box motif. Co-transfection experiments using RP58 overexpression constructs demonstrated a specific 10-fold repression of CR2/CD21 transcriptional activity mediated through the distal E-box repressor element. Taken together, our results indicate that repression of the CR2/CD21 promoter can occur through one of the E-box motifs via recruitment of RP58 and other factors to bring about a silenced chromatin context within CR2/CD21 non-expressing cells.

Focused transcription from the human CR2/CD21 core promoter is regulated by synergistic activity of TATA and Initiator elements in mature B cells

Complement receptor 2 (CR2/CD21) is predominantly expressed on the surface of mature B cells where it forms part of a coreceptor complex that functions, in part, to modulate B-cell receptor signal strength. CR2/CD21 expression is tightly regulated throughout B-cell development such that CR2/CD21 cannot be detected on pre-B or terminally differentiated plasma cells. CR2/CD21 expression is upregulated at B-cell maturation and can be induced by IL-4 and CD40 signaling pathways. We have previously characterized elements in the proximal promoter and first intron of CR2/CD21 that are involved in regulating basal and tissue-specific expression. We now extend these analyses to the CR2/CD21 core promoter. We show that in mature B cells, CR2/CD21 transcription proceeds from a focused TSS regulated by a non-consensus TATA box, an initiator element and a downstream promoter element. Furthermore, occupancy of the general transcriptional machinery in pre-B versus mature B-cell lines correlate with CR2/CD21 expression level and indicate that promoter accessibility must switch from inactive to active during the transitional B-cell window.