AbstractThe molecular mechanisms of tumor metastasis remain largely unknown and undefined. A recent model suggests that a minor population of cells (cancer stem cells) is programmed to preferentially metastasize to specific organs based on their gene expression patterns. These cells have the ability to generate tumors after implantation into animal hosts, to self-renew and give rise to non-stem cells. In this paper I hypothesize that epigenetic mechanisms could play an important role in tumor metastasis through the reorganization of the bivalent chromatin marks in cancer stem cells in three phases: 1) the reprogramming of epigenetic marks in differentiation master regulator genes responsible for the differentiation to one particular lineage...
The epigenetic marks displayed by a cancer cell originate from two separate processes: The most prom...
The uncontrolled cell growth, knows as carcinogenesis, following the activation of oncogenes along w...
During cancer progression, tumor cells undergo various molecular and phenotypic changes collectively...
AbstractThe molecular mechanisms of tumor metastasis remain largely unknown and undefined. A recent ...
Once cancer metastasizes to distant organs like the bone, liver, lung, and brain, it is in an advanc...
Current hypotheses suggest that tumors originate from cells that carry out a process of 'malignant r...
Carcinogenesis involves uncontrolled cell growth, which follows the activation of oncogenes and/or t...
Carcinogenesis involves uncontrolled cell growth, which follows the activation of oncogenes and/or t...
AbstractThe complexity of the mammalian genome is regulated by heritable epigenetic mechanisms, whic...
Epigenetic regulators are one of the most commonly mutated classes of genes in cancer. During cancer...
The molecular basis of cancer encompasses both genetic and epigenetic alterations. These epigenetic ...
Metastases represent the end products of a multistep cell-biological process termed the invasion-met...
Cancer researchers are currently embarking on one of their field's biggest challenges, namely the un...
Genetic aberrations, including chromosomal rearrangements, loss or amplification of DNA, and point m...
Aberrant gene function and altered patterns of gene expression are key features of cancer. Growing e...
The epigenetic marks displayed by a cancer cell originate from two separate processes: The most prom...
The uncontrolled cell growth, knows as carcinogenesis, following the activation of oncogenes along w...
During cancer progression, tumor cells undergo various molecular and phenotypic changes collectively...
AbstractThe molecular mechanisms of tumor metastasis remain largely unknown and undefined. A recent ...
Once cancer metastasizes to distant organs like the bone, liver, lung, and brain, it is in an advanc...
Current hypotheses suggest that tumors originate from cells that carry out a process of 'malignant r...
Carcinogenesis involves uncontrolled cell growth, which follows the activation of oncogenes and/or t...
Carcinogenesis involves uncontrolled cell growth, which follows the activation of oncogenes and/or t...
AbstractThe complexity of the mammalian genome is regulated by heritable epigenetic mechanisms, whic...
Epigenetic regulators are one of the most commonly mutated classes of genes in cancer. During cancer...
The molecular basis of cancer encompasses both genetic and epigenetic alterations. These epigenetic ...
Metastases represent the end products of a multistep cell-biological process termed the invasion-met...
Cancer researchers are currently embarking on one of their field's biggest challenges, namely the un...
Genetic aberrations, including chromosomal rearrangements, loss or amplification of DNA, and point m...
Aberrant gene function and altered patterns of gene expression are key features of cancer. Growing e...
The epigenetic marks displayed by a cancer cell originate from two separate processes: The most prom...
The uncontrolled cell growth, knows as carcinogenesis, following the activation of oncogenes along w...
During cancer progression, tumor cells undergo various molecular and phenotypic changes collectively...