Suman Pradhan scite author profile

Infection with Shiga toxin (Stx) producing Escherichia coli O157:H7 can cause the potentially fatal complication hemolytic uremic syndrome, and currently only supportive therapy is available. Lack of suitable animal models has hindered study of this disease. Induced human intestinal organoids (iHIOs), generated by in vitro differentiation of pluripotent stem cells, represent differentiated human intestinal tissue. We show that iHIOs with addition of human neutrophils can model E. coli intestinal infection and innate cellular responses. Commensal and O157:H7 introduced into the iHIO lumen replicated rapidly achieving high numbers. Commensal E. coli did not cause damage, and were completely contained within the lumen, suggesting defenses, such as mucus production, can constrain non-pathogenic strains. Some O157:H7 initially co-localized with cellular actin. Loss of actin and epithelial integrity was observed after 4 hours. O157:H7 grew as filaments, consistent with activation of the bacterial SOS stress response. SOS is induced by reactive oxygen species (ROS), and O157:H7 infection increased ROS production. Transcriptional profiling (RNAseq) demonstrated that both commensal and O157:H7 upregulated genes associated with gastrointestinal maturation, while infection with O157:H7 upregulated inflammatory responses, including interleukin 8 (IL-8). IL-8 is associated with neutrophil recruitment, and infection with O157:H7 resulted in recruitment of human neutrophils into the iHIO tissue.

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Inhibition of Lysine Acetyltransferase KAT3B/p300 Activity by a Naturally Occurring Hydroxynaphthoquinone, Plumbagin

Ravindra

Selvi

Mohammed

et al. 2009

Journal of Biological Chemistry

113

102

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Lysine acetyltransferases (KATs), p300 (KAT3B), and its close homologue CREB-binding protein (KAT3A) are probably the most widely studied KATs with well documented roles in various cellular processes. Hence, the dysfunction of p300 may result in the dysregulation of gene expression leading to the manifestation of many disorders. The acetyltransferase activity of p300/CREB-binding protein is therefore considered as a target for new generation therapeutics. We describe here a natural compound, plumbagin (RTK1), isolated from Plumbago rosea root extract, that inhibits histone acetyltransferase activity potently in vivo. Interestingly, RTK1 specifically inhibits the p300-mediated acetylation of p53 but not the acetylation by another acetyltransferase, p300/CREB-binding protein -associated factor, PCAF, in vivo. RTK1 inhibits p300 histone acetyltransferase activity in a noncompetitive manner. Docking studies and site-directed mutagenesis of the p300 histone acetyltransferase domain suggest that a single hydroxyl group of RTK1 makes a hydrogen bond with the lysine 1358 residue of this domain. In agreement with this, we found that indeed the hydroxyl group-substituted plumbagin derivatives lost the acetyltransferase inhibitory activity. This study describes for the first time the chemical entity (hydroxyl group) required for the inhibition of acetyltransferase activity.

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EP400 Deposits H3.3 into Promoters and Enhancers during Gene Activation

Pradhan¹,

Su²,

Yen³

et al. 2016

Molecular Cell

111

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Gene activation in metazoans is accompanied by the presence of histone variants H2AZ and H3.3 within promoters and enhancers. It is not known however what protein deposits H3.3 into chromatin or whether variant chromatin plays a direct role in gene activation. Here we show that chromatin containing acetylated H2AZ and H3.3 stimulates transcription in vitro. Analysis of the Pol II pre-initiation complex on immobilized chromatin templates revealed that the E1A Binding Protein p400 (EP400) was bound preferentially to and required for transcription stimulation by acetylated double-variant chromatin. EP400 also stimulated H2AZ/H3.3 deposition into promoters and enhancers and influenced transcription in vivo at a step downstream of the Mediator complex. EP400 efficiently exchanged recombinant histones H2A and H3.1 with H2AZ and H3.3, respectively, in a chromatin- and ATP-stimulated manner in vitro. Our data reveal that EP400 deposits H3.3 into chromatin alongside H2AZ and contributes to gene regulation after PIC assembly.

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Mechanism of p300 Specific Histone Acetyltransferase Inhibition by Small Molecules

et al. 2008

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Dysfunction of histone acetyltransferases (HATs) leads to several diseases including cancer, diabetes, and asthma. Therefore, small molecule inhibitors and activators of HATs are being considered as new generation therapeutics. Here, we report the molecular mechanisms of p300 HAT inhibition by specific and nonspecific HAT inhibitors: garcinol, isogarcinol, and 1 (LTK14). The p300 specific HAT inhibitor 1 behaves as a noncompetitive inhibitor for both acetyl-CoA and histone, unlike nonspecific HAT inhibitors garcinol and isogarcinol. The isothermal calorimetric data suggest that there is a high affinity enthalpy driven single binding site for 1 on p300HAT domain in contrast to two binding sites for garcinol and isogarcinol. Furthermore, the precise nature of molecular interactions was determined by using fluorescence, docking, and mutational studies. On the basis of these observations, we have proposed the mechanisms of specific versus nonspecific HAT inhibition by these small molecule compounds, which may be useful to design therapeutically favorable HAT inhibitors.

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Effect of Urea on the Organization and Dynamics of Triton X-100 Micelles: A Fluorescence Approach

2004

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Chaotropes such as urea perturb the organization of molecular assemblies formed by the hydrophobic effect. We have monitored the change in the organization and dynamics of Triton X-100 micelles induced by urea utilizing wavelength-selective fluorescence and related approaches using the environment-sensitive fluorescent membrane probes NBD-PE (N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)-1,2-dipalmitoyl-sn-glycero-3-phosphoethanolamine) and DPH (1,6-diphenyl-1,3,5-hexatriene). NBD-PE is a phospholipid in which the headgroup is covalently attached with the fluorescent NBD group. On the other hand, DPH is an extensively used fluorescent membrane probe which partitions into deeper hydrocarbon region of membranes and micelles. Our results utilizing several sensitive fluorescence parameters (such as emission maximum, anisotropy, lifetime, and quenching) show increased polarity around the NBD group of micelle-bound NBD-PE in the presence of varying concentrations of urea. This could possibly be due to increased water penetration in Triton X-100 micelles induced by urea. Data from experiments using the deeper hydrocarbon region probe DPH support this observation. Interestingly, the extent of red edge excitation shift (REES) was invariant in the presence of varying concentrations of urea. Fluorescence quenching measurements of the micelle-bound NBD-PE using the aqueous quencher Co 2+ indicate increased accessibility of the NBD group at higher urea concentrations. These results could be due to an increase in solvation of the polar headgroups by urea-water mixture than water alone, along with an increase in water penetration.

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Suman Pradhan

Intestinal organoids model human responses to infection by commensal and Shiga toxin producing Escherichia coli

Inhibition of Lysine Acetyltransferase KAT3B/p300 Activity by a Naturally Occurring Hydroxynaphthoquinone, Plumbagin

EP400 Deposits H3.3 into Promoters and Enhancers during Gene Activation

Mechanism of p300 Specific Histone Acetyltransferase Inhibition by Small Molecules

Effect of Urea on the Organization and Dynamics of Triton X-100 Micelles: A Fluorescence Approach

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