Cornell University researchers said that MicroRNA-34 gene family (miR-34), act as bona fide tumour suppressors.
Previous research at Cornell and elsewhere has shown that another gene, called p53, acts to positively regulate miR-34.
Mutations of p53 have been implicated in half of all cancers. MiR-34 is also frequently silenced by mechanisms other than p53 in many cancers, including those with p53 mutations.
The researchers showed in mice how interplay between genes p53 and miR-34 jointly inhibits another cancer-causing gene called MET.
In absence of p53 and miR-34, MET overexpresses a receptor protein and promotes unregulated cell growth and metastasis.
In a 2011 study, Nikitin and colleagues showed that p53 and miR-34 jointly regulate MET in cell culture but it remained unknown if the same mechanism works in a mouse model of cancer.
The findings suggest that drug therapies that target and suppress MET could be especially successful in cancers where both p53 and miR-34 are deficient.
The researchers used mice bred to develop prostate cancer, then inactivated the p53 gene by itself, or miR-34 by itself, or both together, but only in epithelium tissue of the prostate, as global silencing of these genes may have produced misleading results.
When miR-34 and p53 genes were both silenced together, the researchers observed full prostate cancer in the mice.
The findings show that "miR-34 can be a tumour-suppressor gene, but it has to work together with p53," Nikitin said.
In mice that had both miR-34 and p53 silenced concurrently, cancerous lesions formed in a proximal part of the prostrate ducts, in a compartment known to contain prostate stem cells.
"These results indicated that together [miR-34 and p53] regulate the prostate stem cell compartments," said Nikitin.
The study is published in the journal Cell Reports.