G. Liu scite author profile

A key feature of cancer chromosomes and genomes is their high level of dynamics and the ability to constantly evolve. This unique characteristic forms the basis of genetic heterogeneity necessary for cancer formation, which presents major obstacles to current cancer diagnosis and treatment. It has been difficult to integrate such dynamics into traditional models of cancer progression. In this conceptual piece, we briefly discuss some of the recent exciting progress in the field of cancer genomics and genome research. In particular, a re-evaluation of the previously disregarded non-clonal chromosome aberrations (NCCAs) is reviewed, coupled with the progress of the detection of sub-chromosomal aberrations with array technologies. Clearly, the high level of genetic heterogeneity is directly caused by genome instability that is mediated by stochastic genomic changes, and genome variations defined by chromosome aberrations are the driving force of cancer progression. In addition to listing various types of non-recurrent chromosomal aberrations, we discuss the likely mechanism underlying cancer chromosome dynamics. Finally, we call for further examination of the features of dynamic genome diseases including cancer in the context of systems biology and the need to integrate this new knowledge into basic research and clinical applications. This genome centric concept will have a profound impact on the future of biological and medical research.

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Identification and functional analysis of 9p24 amplified genes in human breast cancer

Liu

et al. 2011

Oncogene

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Previously, our group identified a novel amplicon at chromosome 9p24 in human esophageal and breast cancers, and cloned the novel gene, GASC1 (gene amplified in squamous cell carcinoma 1, also known as JMJD2C/KDM4C), from this amplicon. GASC1 is a histone demethylase involved in the deregulation of histone methylation in cancer cells. In the current study, we aimed to comprehensively characterize the genes in the 9p24 amplicon in human breast cancer. We performed extensive genomic analyses on a panel of cancer cell lines and narrowed the shortest region of overlap to approximately 2 Mb. Based on statistical analysis of copy number increase and overexpression, the 9p24 amplicon contains six candidate oncogenes. Among these, four genes (GASC1 UHRF2, KIAA1432 and C9orf123) are overexpressed only in the context of gene amplification while two genes (ERMP1 and IL33) are overexpressed independent of the copy number increase. We then focused our studies on the UHRF2 gene, which has a potential involvement in both DNA methylation and histone modification. Knocking down UHRF2 expression inhibited the growth of breast cancer cells specifically with 9p24 amplification. Conversely, ectopic overexpression of UHRF2 in non-tumorigenic MCF10A cells promoted cell proliferation. Furthermore, we demonstrated that UHRF2 has the ability to suppress the expression of key cell-cycle inhibitors, such as p16INK4a, p21Waf1/Cip1 and p27Kip1. Taken together, our studies support the notion that the 9p24 amplicon contains multiple oncogenes that may integrate genetic and epigenetic codes and have important roles in human tumorigenesis.

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Genetic and Epigenetic Heterogeneity in Cancer: The Ultimate Challenge for Drug Therapy

Heng¹,

Liu²,

Stevens³

et al. 2010

CDT

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Based on the gene and pathway centric concept of cancer, current approaches to cancer drug treatment have been focused on key molecular targets specific and essential for cancer progression and drug resistance. This approach appears promising in many experimental models but unfortunately has not worked well in the vast majority of cancers in clinical settings. Many new proposals, based on the same rationale of identifying a "magic bullet" are emerging now that target the epigenetic level as well as some other new targets including metabolic regulation, genetic instability and tumor environments. In spite of the optimism resulting from these new approaches there is still a key challenge that remains regarding cancer drug therapy in the form of multiple levels of genetic and epigenetic heterogeneity. Using the recently formulated genome theory, the importance of bio-heterogeneity and its complex relationships between different levels has been discussed and in particular, the concept and methods used to monitor and target genome level heterogeneity. By briefly mentioning some newly introduced treatment options, this review further discusses the common challenges for the field as well as possible future directions of research.

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p53 Down-Regulates ER-Responsive Genes by Interfering with the Binding of ER to ERE

Liu

Schwartz

Brooks

1999

Biochemical and Biophysical Research Communications

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Re-defining the chromatin loop domain

Heng

Krawetz

Lü

et al. 2001

Cytogenet Genome Res

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It is commonly accepted that the loop domain represents the basic structural unit of eukaryotic chromatin associated with DNA replication, gene expression and higher order packaging. However, molecular-cytological information defining the loop domain is lacking. There are gaps in our knowledge of the loop structure and how it regulates gene expression. The combination of new data/reagents from the Human Genome Project plus the use of novel molecular cytological technology will provide answers. Here we briefly review the status of chromatin loop research and pose questions that need to be addressed. New experimental systems are also presented to target some long-standing issues regarding the structure and function of the chromatin loop domain and its relationship with the nuclear matrix. This new knowledge will have a profound impact for modern genetics and molecular medicine.

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G. Liu

The dynamics of cancer chromosomes and genomes

Identification and functional analysis of 9p24 amplified genes in human breast cancer

Genetic and Epigenetic Heterogeneity in Cancer: The Ultimate Challenge for Drug Therapy

p53 Down-Regulates ER-Responsive Genes by Interfering with the Binding of ER to ERE

Re-defining the chromatin loop domain

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