Abstract
Simple SummaryIrreversible defects in RB1 tumor suppressor functions often predict poor outcomes in cancer patients. However, the RB1-defecient status can be a benefit as well for them, as it generates a variety of vulnerabilities induced through the upregulation of RB1 targets, relief from functional restrictions due to RB1 binding, presence of genes whose inactivation cause synthetic lethality with RB1 loss, or collateral synthetic lethality owing to simultaneous loss of neighboring genes.Retinoblastoma protein 1 (RB1) is encoded by a tumor suppressor gene that was discovered more than 30 years ago. Almost all mitogenic signals promote cell cycle progression by braking on the function of RB1 protein through mono- and subsequent hyper-phosphorylation mediated by cyclin-CDK complexes. The loss of RB1 function drives tumorigenesis in limited types of malignancies including retinoblastoma and small cell lung cancer. In a majority of human cancers, RB1 function is suppressed during tumor progression through various mechanisms. The latter gives rise to the acquisition of various phenotypes that confer malignant progression. The RB1-targeted molecules involved in such phenotypic changes are good quarries for cancer therapy. Indeed, a variety of novel therapies have been proposed to target RB1 loss. In particular, the inhibition of a number of mitotic kinases appeared to be synthetic lethal with RB1 deficiency. A recent study focusing on a neighboring gene that is often collaterally deleted together with RB1 revealed a pharmacologically targetable vulnerability in RB1-deficient cancers. Here we summarize current understanding on possible therapeutic approaches targeting functional or genomic aberration of RB1 in cancers.
Highlights
The discovery of Retinoblastoma protein 1 (RB1) gene had paved an avenue toward understanding the complicated functions of the human genome in preventing cells from carcinogenesis [1,2]
As RB1 function is lost in a wide variety of cancer types at varied stages, synthetic lethality screening in RB1-deficient cells needs to be extended to more varies of cancers
Inactivation of RB1 functions and the RB1-llike pathway is a major hallmark of cancer
Summary
The discovery of RB1 gene had paved an avenue toward understanding the complicated functions of the human genome in preventing cells from carcinogenesis [1,2]. RB1 gene was thought to be mechanistically involved in the initiation of retinoblastoma as its inactivation following genetic mutation or deletion was prevalently identified in the pedigrees of hereditary cases [3]. RB1 reconstitution in RB1-deficient osteosarcoma-derived cells does not always completely attenuate their malignant phenotypes, presumably due to coexisting functional aberration in Trp tumor suppressor or other driver mutations [9,10]. These findings indicate that RB1 may exert varied functions depending on cancer tissue type and timing during the course of tumor development. This review will discuss putative approaches to treat RB1-deficient cancers by targeting comparatively large-scale chromosomal aberration involving the RB1 loci
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