Ryan Weeks scite author profile

Ryan Weeks

3Publications

5Citation Statements Received

155Citation Statements Given

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150

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North Carolina State University, University of Alabama at Birmingham

Publications

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Abrogation of Constitutive and Induced Type I and Type III Interferons and Interferon-Stimulated Genes in Keratinocytes by Canine Papillomavirus 2 E6 and E7

Quinlan

May

Weeks

et al. 2020

Viruses

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Cutaneous papillomaviruses can cause severe, persistent infections and skin cancer in immunodeficient patients, including people with X-linked severe combined immunodeficiency (XSCID). A similar phenotype is observed in a canine model of XSCID; these dogs acquire severe cutaneous papillomavirus infections that can progress to cancer in association with canine papillomavirus type 2 (CPV2). This canine model system provides a natural spontaneous animal model for investigation of papillomavirus infections in immunodeficient patients. Currently, it is unknown if CPV2 can subvert the innate immune system and interfere with its ability to express antiviral cytokines, which are critical in the host defense against viral pathogens. The aim of the current study was to determine if the oncogenes E6 and E7 from CPV2 interfere with expression of antiviral cytokines in keratinocytes, the target cells of papillomavirus infections. We determined that E6 but not E7 interferes with the constitutive expression of some antiviral cytokines, including interferon (IFN)-β and the IFN-stimulated gene IFIT1. Both E6 and E7 interfere with the transcriptional upregulation of the antiviral cytokines in response to stimulation with the dsDNA Poly(dA:dT). In contrast, while E6 also interferes with the transcriptional upregulation of antiviral cytokines in response to stimulation with the dsRNA Poly(I:C), E7 interferes with only a subset of these antiviral cytokines. Finally, we demonstrated that E7 but not E6 abrogates signaling through the type I IFN receptor. Taken together, CPV2 E6 and E7 both impact expression of antiviral cytokines in canine keratinocytes, albeit likely through different mechanisms.

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Canine Papillomavirus 2 E6 Does Not Interfere With UVB-Induced Upregulation of p53 and p53-Regulated Genes

et al. 2021

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Cutaneous papillomaviruses are oncogenic viruses that cause severe, persistent infections that can develop into skin cancers within ultraviolet (UV)-exposed skin of immunodeficient individuals, such as those with X-linked severe combined immunodeficiency (XSCID). A canine research model of XSCID exhibits a similar phenotype; these dogs develop severe canine papillomavirus 2 (CPV2) infections that often progress to cancer. Thus, the dog is a natural, spontaneous model to investigate cutaneous papillomavirus infections in immunodeficient patients. The human papillomavirus oncogene E6 contributes to cancer development, in part, by initiating degradation of the tumor suppressor protein p53, or by inhibiting upregulation of p53-dependent genes required within the cell growth arrest and apoptotic pathways, thereby leading to an accumulation of DNA damage required for oncogenesis. Currently, little is known about CPV2, and how it promotes cancer development. The aim of this study was to determine if CPV2 oncogene E6 similarly affects p53 upon activation by UV radiation, as well as the downstream p53-regulated genes necessary to control growth arrest and apoptosis. We determined that cutaneous CPV2 E6 does not degrade p53, or interfere with the upregulation of p53-regulated genes p21, Bax, Bak, or lncRNA-p21, suggesting that CPV2 may use a p53-independent mechanism to contribute to oncogenesis.

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Fluorescence microscopy of DES‐induced morphologic transformation in unfixed, cultured cells

Petcharuttana

Cutter

Weeks

et al. 1989

J Oral Pathology Medicine

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Cultured baby Syrian hamster kidney cells (BHK 21), synchronized with hydroxyurea (HU), were treated with varying amounts of the carcinogen diethylstilbestrol (DES) during the first mitosis. DES-induced morphologic transformation was assessed by fluorescence microscopy of acridine orange, supravitally stained cells. Traditional karyotyping techniques were used to monitor DES-induced aneuploidy in parallel cell cultures. A total of 618 photomicrographs were obtained by systematic manual scanning of three replicate experiments each using three different DES treatment levels and a no DES control. These photomicrographs were randomized and graded blind by three independent observers. Each photomicrograph was graded for cellular morphologic transformation and a judgement as to whether DES treatment had been used. A definite dose-response relationship for both morphologic transformation, as well as for aneuploidy was observed. These findings portend a significance for use of fluorescence microscopy of morphologic transformation of unfixed supravitally stained mammalian cells, for the rapid assessment (24 h or less) of compounds that promote aneuploidization and carcinogenesis.

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Ryan Weeks

Abrogation of Constitutive and Induced Type I and Type III Interferons and Interferon-Stimulated Genes in Keratinocytes by Canine Papillomavirus 2 E6 and E7

Canine Papillomavirus 2 E6 Does Not Interfere With UVB-Induced Upregulation of p53 and p53-Regulated Genes

Fluorescence microscopy of DES‐induced morphologic transformation in unfixed, cultured cells

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