Stephen G. Maher scite author profile

microRNAs (miRNAs) are highly conserved, non-protein-coding RNAs that function to regulate gene expression. In mammals this regulation is primarily carried out by repression of translation. miRNAs play important roles in homeostatic processes such as development, cell proliferation and cell death. Recently the dysregulation of miRNAs has been linked to cancer initiation and progression, indicating that miRNAs may play roles as tumour suppressor genes or oncogenes. The role of miRNAs in apoptosis is not fully understood, however, evidence is mounting that miRNAs are important in this process. The dysregulation of miRNAs involved in apoptosis may provide a mechanism for cancer development and resistance to cancer therapy. This review examines the biosynthesis of miRNA, the mechanisms of miRNA target regulation and the involvement of miRNAs in the initiation and progression of human cancer. It will include miRNAs involved in apoptosis, specifically those miRNAs involved in the regulation of apoptotic pathways and tumour suppressor/oncogene networks. It will also consider emerging evidence supporting a role for miRNAs in modulating sensitivity to anti-cancer therapy.

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Clinical Use of Interferon‐γ

Miller

Maher

Young

2009

Annals of the New York Academy of Sciences

269

227

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Interferon gamma (IFN-gamma), a pleotropic cytokine, has been shown to be important to the function of virtually all immune cells and both innate and adaptive immune responses. In 1986, early clinical trials of this cytokine began to evaluate its therapeutic potential. The initial studies focused on the tolerability and pharmacology of IFN-gamma and systematically determined its antitumor and anti-infection activities. In the 20-plus years since those first trials, IFN-gamma has been used in a wide variety of clinical indications, which are reviewed in this article.

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Interferon: Cellular Executioner or White Knight?

Maher¹,

Romero-Weaver²,

Scarzello³

et al. 2007

CMC

147

131

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Interferons (IFNs) are a family of pleiotropic cytokines that typically exhibit antiviral, antiproliferative, antitumor, and immunomodulatory properties. While their complex mechanisms of action remain unclear, IFNs are used clinically in the treatment of viral infections, such as hepatitis B and hepatitis C, and remain the primary treatment for a limited number of malignancies, such as melanoma, hairy cell leukemia, and non-Hodgkin's lymphoma and in autoimmune diseases such as multiple sclerosis. IFNs not only regulate somatic cell growth and division but also influence cell survival through the modulation of apoptosis. Paradoxically, IFNs are described to be both pro- and anti-apoptotic in nature. The biological effects of IFNs are primarily mediated via activation of the JAK/STAT pathway, formation of the ISGF3 and STAT1:STAT1 protein complexes, and the subsequent induction of IFN-stimulated genes. However, the activation of JAK/STAT-independent signal transduction pathways also contribute to IFN-mediated responses. To further demonstrate the complexity of the downstream events following stimulation, oligonucleotide microarray studies have shown that in excess of 300 genes are induced following treatment with IFN, some of which are crucial to the induction of apoptosis and cell growth control. In this review we describe the recent advances made in elucidating the various signaling pathways that are activated by IFNs and how these diverse signals contribute to the regulation of cell growth and apoptosis and inhibition of viral replication. Furthermore, we highlight the role of specific signaling molecules and the function(s) of particular IFN-stimulated genes that have been implicated in determining cell fate in response to IFN, as well as the clinical experience of IFN immunotherapy.

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Stephen G. Maher

The roles of microRNA in cancer and apoptosis

Clinical Use of Interferon‐γ

Interferon: Cellular Executioner or White Knight?

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