Sarah Lohsen scite author profile

Sarah Lohsen

5Publications

90Citation Statements Received

434Citation Statements Given

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356

421

Affiliations

Emory University, Oglethorpe University

Publications

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Genome-wide CIITA-binding profile identifies sequence preferences that dictate function versus recruitment

Scharer¹,

Choi²,

Barwick³

et al. 2015

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The class II transactivator (CIITA) is essential for the expression of major histocompatibility complex class II (MHC-II) genes; however, the role of CIITA in gene regulation outside of MHC-II biology is not fully understood. To comprehensively map CIITA-bound loci, ChIP-seq was performed in the human B lymphoblastoma cell line Raji. CIITA bound 480 sites, and was significantly enriched at active promoters and enhancers. The complexity of CIITA transcriptional regulation of target genes was analyzed using a combination of CIITA-null cells, including a novel cell line created using CRISPR/Cas9 tools. MHC-II genes and a few novel genes were regulated by CIITA; however, most other genes demonstrated either diminished or no changes in the absence of CIITA. Nearly all CIITA-bound sites were within regions containing accessible chromatin, and CIITA's presence at these sites was associated with increased histone H3K27 acetylation, suggesting that CIITA's role at these non-regulated loci may be to poise the region for subsequent regulation. Computational genome-wide modeling of the CIITA bound XY box motifs provided constraints for sequences associated with CIITA-mediated gene regulation versus binding. These data therefore define the CIITA regulome in B cells and establish sequence specificities that predict activity for an essential regulator of the adaptive immune response.

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Common distal elements orchestrate CIITA isoform-specific expression in multiple cell types

et al. 2014

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Major histocompatibility class II (MHC-II) expression is critical for immune responses and is controlled by the MHC-II transactivator CIITA. CIITA is primarily regulated at the transcriptional level and is expressed from three main promoters with myeloid, lymphoid, and IFN-γ treated non-hematopoietic cells using promoters pI, pIII, and pIV, respectively. Recent studies in non-hematopoietic cells suggest a series of distal regulatory elements may be involved in regulating CIITA transcription. To identify distal elements in B cells, a DNase I-hypersensitivity screen was performed, revealing a series of potential novel regulatory elements. These elements were analyzed computationally and biochemically. Several regions displayed active histone modifications and/or enhanced expression of a reporter gene. Four of the elements interacted with pIII in B cells. These same four regions were also found to interact with pI in splenic dendritic cells (spDC). Intriguingly, examination of the above interactions in pI-knockout-derived spDC showed a switch to the next available promoter, pIII. Extensive DNA methylation was found at the pI region in B cells, suggesting that this promoter is not accessible in B cells. Thus, CIITA expression is likely mediated in hematopoietic cells by common elements with promoter accessibility playing a part in promoter choice.

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High-Level Macrolide Resistance Due to the Mega Element [mef(E)/mel] in Streptococcus pneumoniae

et al. 2019

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Transferable genetic elements conferring macrolide resistance in Streptococcus pneumoniae can encode the efflux pump and ribosomal protection protein, mef (E)/ mel , in an operon of the macrolide efflux genetic assembly (Mega) element- or induce ribosomal methylation through a methyltransferase encoded by erm (B). During the past 30 years, strains that contain Mega or erm (B) or both elements on Tn 2010 and other Tn 916 -like composite mobile genetic elements have emerged and expanded globally. In this study, we identify and define pneumococcal isolates with unusually high-level macrolide resistance (MICs > 16 μg/ml) due to the presence of the Mega element [ mef (E)/ mel ] alone. High-level resistance due to mef (E)/ mel was associated with at least two specific genomic insertions of the Mega element, designated Mega-2.IVa and Mega-2.IVc. Genome analyses revealed that these strains do not possess erm (B) or known ribosomal mutations. Deletion of mef (E)/ mel in these isolates eliminated macrolide resistance. We also found that Mef(E) and Mel of Tn 2010 -containing pneumococci were functional but the high-level of macrolide resistance was due to Erm(B). Using in vitro competition experiments in the presence of macrolides, high-level macrolide-resistant S. pneumoniae conferred by either Mega-2.IVa or erm (B), had a growth fitness advantage over the lower-level, mef (E)/ mel -mediated macrolide-resistant S. pneumoniae phenotypes. These data indicate the ability of S. pneumoniae to generate high-level macrolide resistance by macrolide efflux/ribosomal protection [Mef(E)/Mel] and that high-level resistance regardless of mechanism provides a fitness advantage in the presence of macrolides.

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Dissemination of Tn 916 -Related Integrative and Conjugative Elements in Streptococcus pneumoniae Occurs by Transformation and Homologous Recombination in Nasopharyngeal Biofilms

Antezana

Lohsen

et al. 2023

Microbiol Spectr

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Current Macrolide Antibiotics and Their Mechanisms of Action

Lohsen

Stephens

2019

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Sarah Lohsen

Genome-wide CIITA-binding profile identifies sequence preferences that dictate function versus recruitment

Common distal elements orchestrate CIITA isoform-specific expression in multiple cell types

High-Level Macrolide Resistance Due to the Mega Element [mef(E)/mel] in Streptococcus pneumoniae

Dissemination of Tn 916 -Related Integrative and Conjugative Elements in Streptococcus pneumoniae Occurs by Transformation and Homologous Recombination in Nasopharyngeal Biofilms

Current Macrolide Antibiotics and Their Mechanisms of Action

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