Maren M. Gross scite author profile

Over two-thirds of melanomas have activating mutations in B-Raf, leading to constitutive activation of the B-Raf/MKK/ERK signaling pathway. The most prevalent mutation, B-RafV600E, promotes cancer cell behavior through mechanisms that are still incompletely defined. Here, we used a sensitive microarray profiling platform to compare microRNA (miRNA) expression levels between primary melanocytes and B-RafV600E-positive melanoma cell lines, and between melanoma cells treated in the presence and absence of an MKK1/2 inhibitor. We identified a network of >20 miRNAs deregulated by B-Raf/MKK/ERK in melanoma cells, the majority of which modulate the expression of key cancer regulatory genes and functions. Importantly, miRNAs within the network converge on protein regulation and cancer phenotypes, suggesting that these miRNAs might function combinatorially. We show that miRNAs augment effects on protein repression and cell invasion when co-expressed, and gene-specific latency and interference effects between miRNAs were also observed. Thus, B-Raf/MKK/ERK controls key aspects of cancer cell behavior and gene expression by modulating a network of miRNAs with cross-regulatory functions. The findings highlight the potential for complex interactions between coordinately regulated miRNAs within a network.

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Gene expression profiling in pachyonychia congenita skin

Cao¹,

Hickerson²,

Seegmiller³

et al. 2015

Journal of Dermatological Science

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Background Pachyonychia congenita (PC) is a skin disorder resulting from mutations in keratin (K) proteins including K6a, K6b, K16, and K17. One of the major symptoms is painful plantar keratoderma. The pathogenic sequelae resulting from the keratin mutations remain unclear. Objective To better understand PC pathogenesis. Methods RNA profiling was performed on biopsies taken from PC-involved and uninvolved plantar skin of seven genotyped PC patients (two K6a, one K6b, three K16, and one K17) as well as from control volunteers. Protein profiling was generated from tape-stripping samples. Results A comparison of PC-involved skin biopsies to adjacent uninvolved plantar skin identified 112 differentially-expressed mRNAs common to patient groups harboring K6 (i.e., both K6a and K6b) and K16 mutations. Among these mRNAs, 25 encode structural proteins including keratins, small proline-rich and late cornified envelope proteins, 20 are related to metabolism and 16 encode proteases, peptidases, and their inhibitors including kallikrein-related peptidases (KLKs), and serine protease inhibitors (SERPINs). mRNAs were also identified to be differentially expressed only in K6 (81) or K16 (141) patient samples. Furthermore, 13 mRNAs were identified that may be involved in pain including nociception and neuropathy. Protein profiling, comparing three K6a plantar tape-stripping samples to non-PC controls, showed changes in the PC corneocytes similar, but not identical, to the mRNA analysis. Conclusion Many differentially-expressed genes identified in PC-involved skin encode components critical for skin barrier homeostasis including keratinocyte proliferation, differentiation, cornification, and desquamation. The profiling data provide a foundation for unraveling the pathogenesis of PC and identifying targets for developing effective PC therapeutics.

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CRISPR-mediated transcriptional activation with synthetic guide RNA

Strezoska

Dickerson

Maksimova

et al. 2020

Journal of Biotechnology

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Abstract 5245: A network of microRNAs contolled by oncogenic B-Raf signaling in melanoma cells

Couts

Anderson

Gross

et al. 2014

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Constitutive activation of the B-Raf/MKK/ERK signaling pathway a result of B-Raf activating mutations is a hallmark of over two-thirds of melanomas. The most prevalent mutation, B-RafV600E, promotes cancer cell behavior through mechanisms which are still incompletely defined. We utilized microRNA (miRNA) microarray profiling to identify a network of more than 20 miRNAs deregulated by B-Raf/MKK/ERK in melanoma cells, the majority of which modulate expression of key cancer regulatory genes and functions. Importantly, miRNAs within the network converge on protein regulation and cancer phenotypes, suggesting that these miRNAs might function combinatorially. Additionally, by altering functional levels of these miRNAs in cells with miRNA mimics and inhibitors we demonstrate that miRNAs augment effects on protein repression and cell invasion when co-expressed, and we also observe gene-specific latency and interference effects between miRNAs. Thus, B-Raf/MKK/ERK controls key aspects of cancer cell behavior and gene expression by modulating a network of miRNAs with cross-regulatory functions. The findings highlight the potential for complex interactions between coordinately regulated miRNAs within a gene expression network. Citation Format: Kasey L. Couts, Emily M. Anderson, Maren M. Gross, Kevin Sullivan, Natalie G. Ahn. A network of microRNAs contolled by oncogenic B-Raf signaling in melanoma cells. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 5245. doi:10.1158/1538-7445.AM2014-5245

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Abstract 2761: Development of synthetic guide RNA libraries for CRISPR-mediated transcriptional activation screening for gain-of-function studies

Vermeulen

Strezoska

Dickerson

et al. 2019

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Functional gene analysis studies have been empowered by development of CRISPR-Cas9 gene knockout tools, however the CRISPR-Cas9 system has also been adapted for inhibition or activation of gene transcription. A nuclease-deactivated Cas9 (dCas9) can be fused to various effector domains to produce an RNA-guided transcription factor for either inhibition (CRISPRi) or activation (CRISPRa) of target genes. For overexpression studies, CRISPRa holds significant advantages over traditional vector-based gene expression, because genes are upregulated from their native promoter and endogenous genomic context. The majority of CRISPRa research performed to date has utilized single guide RNA (sgRNA) expressed from a DNA vector, primarily in the context of pooled lentiviral screening approaches. Here we describe the development of CRISPRa synthetic guide RNAs for the use in arrayed screening, so that we combine this next-generation transcriptional activation method with the ability to support more complex assays in a one-gene-per well format. Considerations for arrayed activation screens will be shown. The combination of gain-of-function from CRISPRa with loss-of-function using RNAi or canonical CRISPR-Cas9 for gene knockout allows for robust characterization of gene mechanisms and pathways. Citation Format: Annaleen Vermeulen, Zaklina Strezoska, Sarah M. Dickerson, Maren M. Gross, Eldon T. Chou, Elena Maksimova, Matthew R. Perkett, Shawn McClelland, Anja V. Smith. Development of synthetic guide RNA libraries for CRISPR-mediated transcriptional activation screening for gain-of-function studies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 2761.

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Maren M. Gross

Oncogenic B-Raf signaling in melanoma cells controls a network of microRNAs with combinatorial functions

Gene expression profiling in pachyonychia congenita skin

CRISPR-mediated transcriptional activation with synthetic guide RNA

Abstract 5245: A network of microRNAs contolled by oncogenic B-Raf signaling in melanoma cells

Abstract 2761: Development of synthetic guide RNA libraries for CRISPR-mediated transcriptional activation screening for gain-of-function studies

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