How could the embryonic proliferation of Leydig cells lead to testicular cancer?

Cancer can be defined as an abnormal proliferation of cells that defy the normal regulatory controls...

Cancer can be defined as an abnormal proliferation of cells that defy the normal regulatory controls observed by normal cells. Recently, histone deacetylation therapies have been attempted in the treatment of certain cancers [reviewed by Delcuve et al. (2009)]. Specifically, the FDA has approved histone deacetylation (HDAC) inhibitors for the treatment of cutaneous T-cell lymphoma. Why does histone acetylation might be associated with cancer? Low acetylation rates often lead to increased cell proliferation, the major cause of tumor. Normally, acetylation...

Testicular cancer is the most common malignant tumor affecting adolescent young men. Testicular tumors are solid...

Testicular cancer is the most common malignant tumor affecting adolescent young men. Testicular tumors are solid growths of malignant cells and are not fluid-filled cystic structures, a characteristic that figures into the patient’s initial evaluation. Testicular cancers have several histological appearances, but almost all are curable if detected early. AJ is a 26-year-old, recent college graduate who has just begun working for a startup software company and really likes the job. When not behind a computer, he’s either on his...

2. Why do cancer cells utilize glycolysis over respiration? The prevailing theory is that they choose...

2. Why do cancer cells utilize glycolysis over respiration? The prevailing theory is that they choose to divert glycolytic intermediates into biosynthetic pathways in order to support cellular proliferation. Briefly describe two of these biosynthetic pathways, including the enzymes and metabolites involved, and any cancer-associated alterations (up-down-regulation).

• Explain the Warburg effect and how this affects cancer cells

• Explain the Warburg effect and how this affects cancer cells

Cancer cells show a much higher rate of glutamine utilization than normal cells. What are two...

Cancer cells show a much higher rate of glutamine utilization than normal cells. What are two strategies that cancer cells could employ to increase the cellular glutamine content?

Discuss how cancer cells evade immune destruction and the role of changes to surface antigens in...

Discuss how cancer cells evade immune destruction and the role of changes to surface antigens in cancer cells.

Please list and describe TWO similarities and TWO differences between stem cells and cancer cells. *Include...

Please list and describe TWO similarities and TWO differences between stem cells and cancer cells. *Include details about the underlying cellular processes that lead to the similarities. In other words, WHY do the two cell types share common traits even though they are so different?

How do cancer cells go from epithelial phenotype to mesenchymal phenotype?

How do cancer cells go from epithelial phenotype to mesenchymal phenotype?

Some mutations that cause cancer can occur in both somatic cells and germ cells. In 1-2...

Some mutations that cause cancer can occur in both somatic cells and germ cells. In 1-2 complete sentences explain how it is possible for there to be a mutation that leads to cancer in the somatic cells and not the germ cells of an individual.

Why are ROS (reactive oxygen species) dangerous for cancer cells, but not to healthy normal cells?...

Why are ROS (reactive oxygen species) dangerous for cancer cells, but not to healthy normal cells? Activation of a metabolic pathway and removal of inhibition of a pathway, while similar, have distinct differences. How does this difference make cancer cells more susceptible than healthy cells to the action of DCA (dichloroacetate).