Michael Khan scite author profile

Deregulated expression of c-MYC occurs in a broad range of human cancers and is often associated with poor prognosis, indicating a key role for this oncogene in tumour progression. However, as established human tumours often bear multiple genetic lesions, it is difficult to determine whether c-MYC is instrumental in the initiation/progression of the tumour, or indeed whether inactivating c-MYC would lead to tumour regression. Regulatable transgenic mouse models of oncogenesis have shed light on these issues and provide hope for effective cancer therapies.

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Suppression of Myc-Induced Apoptosis in β Cells Exposes Multiple Oncogenic Properties of Myc and Triggers Carcinogenic Progression

Pelengaris

Khan

Evan

2002

Cell

576

575

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To explore the role of c-Myc in carcinogenesis, we have developed a reversible transgenic model of pancreatic beta cell oncogenesis using a switchable form of the c-Myc protein. Activation of c-Myc in adult, mature beta cells induces uniform beta cell proliferation but is accompanied by overwhelming apoptosis that rapidly erodes beta cell mass. Thus, the oncogenic potential of c-Myc in beta cells is masked by apoptosis. Upon suppression of c-Myc-induced beta cell apoptosis by coexpression of Bcl-x(L), c-Myc triggers rapid and uniform progression into angiogenic, invasive tumors. Subsequent c-Myc deactivation induces rapid regression associated with vascular degeneration and beta cell apoptosis. Our data indicate that highly complex neoplastic lesions can be both induced and maintained in vivo by a simple combination of two interlocking molecular lesions.

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First-in-Human Phase I Study of the Liposomal RNA Interference Therapeutic Atu027 in Patients With Advanced Solid Tumors

Schultheis

Strumberg

Santel

et al. 2014

JCO

223

165

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The many faces of c-MYC

Pelengaris

Khan

2003

Archives of Biochemistry and Biophysics

200

149

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Reversible Activation of c-Myc in Skin

et al. 1999

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The protooncogene c-myc regulates cell growth, differentiation, and apoptosis, and its aberrant expression is frequently observed in human cancer. However, the consequences of activating c-Myc in an adult tissue, in which these cellular processes are part of normal homeostasis, remain unknown. In order to achieve this, we have targeted expression of a switchable form of the c-Myc protein to the skin epidermis, a well characterized homeostatic tissue. We show that activation of c-MycER in adult suprabasal epidermis rapidly triggers proliferation and disrupts differentiation of postmitotic keratinocytes. Sustained activation of c-Myc is sufficient to induce papillomatosis together with angiogenesis--changes that resemble hyperplastic actinic keratosis, a commonly observed human precancerous epithelial lesion. All these premalignant changes spontaneously regress upon deactivation of c-MycER.

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Micro-Net: A unified model for segmentation of various objects in microscopy images

Raza

Cheung

Shaban

et al. 2019

Medical Image Analysis

183

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Object segmentation and structure localization are important steps in automated image analysis pipelines for microscopy images. We present a convolution neural network (CNN) based deep learning architecture for segmentation of objects in microscopy images. The proposed network can be used to segment cells, nuclei and glands in fluorescence microscopy and histology images after slight tuning of input parameters. The network trains at multiple resolutions of the input image, connects the intermediate layers for better localization and context and generates the output using multi-resolution deconvolution filters.The extra convolutional layers which bypass the max-pooling operation allow the network to train for variable input intensities and object size and make it robust to noisy data. We compare our results on publicly available data sets and show that the proposed network outperforms recent deep learning algorithms.

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Is Alzheimer’s Disease a Liver Disease of the Brain?

Bassendine

Taylor-Robinson

Fertleman

et al. 2020

JAD

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Clinical specialization is not only a force for progress, but it has also led to the fragmentation of medical knowledge. The focus of research in the field of Alzheimer's disease (AD) is neurobiology, while hepatologists focus on liver diseases and lipid specialists on atherosclerosis. This article on AD focuses on the role of the liver and lipid homeostasis in the development of AD. Amyloid-␤ (A␤) deposits accumulate as plaques in the brain of an AD patient long before cognitive decline is evident. A␤ generation is a normal physiological process; the steady-state level of A␤ in the brain is determined by balance between A␤ production and its clearance. We present evidence suggesting that the liver is the origin of brain A␤ deposits and that it is involved in peripheral clearance of circulating A␤ in the blood. Hence the liver could be targeted to decrease A␤ production or increase peripheral clearance.

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Non-β-cell progenitors of β-cells in pregnant mice

Abouna

Old

Pelengaris³

et al. 2010

Organogenesis

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Michael Khan

c-MYC: more than just a matter of life and death

Suppression of Myc-Induced Apoptosis in β Cells Exposes Multiple Oncogenic Properties of Myc and Triggers Carcinogenic Progression

First-in-Human Phase I Study of the Liposomal RNA Interference Therapeutic Atu027 in Patients With Advanced Solid Tumors

The many faces of c-MYC

Reversible Activation of c-Myc in Skin

Micro-Net: A unified model for segmentation of various objects in microscopy images

Is Alzheimer’s Disease a Liver Disease of the Brain?

Non-β-cell progenitors of β-cells in pregnant mice

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