The third-chromosome mutation Killer of prune (K-pn) causes no phenotype by itself, but causes lethality in individuals homozygous for the nonlethal X-chromosome mutation prune (pn). We have recovered 12 gammaray-induced revertants of Killer o[prune. All of the revertants fail to complement a recessive cell lethal mutation in the abnormal wing ddscs (awd) gene. We present evidence that Killer o[prune is a mutation in the awd gene. First, revertant awd r's14 leads to reduced accumulation of the awd gene product, but does not affect flanking genes. Second, when a copy of the awd gene is cloned from Killer o[prtme homozygous flies and injected into embryos, transformants express the lethal interaction with prune. In individuals of the genotype pn; awdX'~°/awd+ the awd mRNA is present at normal levels but the awd polypeptide fails to accumulate. The absence of the awd gene product in such individuals is the cause of death. Although the awd polypeptide is a subunit of a cytoplasmic protein, its sequence is similar to subunit V of yeast cytochrome oxidase.
More than 50 genes have been identified in Drosophila by loss-of-function mutations that lead to overgrowth of specific tissues. Loss-of-function mutations in the lethal giant larvae, discs large, or brain tumor genes cause neoplastic overgrowth of larval brains and imaginal discs. In the present study, the growth and metastatic potential of tumors resulting from mutations in these genes were quantified. Overgrown brains and imaginal discs were transplanted into adults and beta-galactosidase accumulation was used as a marker to identify donor cells. Mutations in these three genes generated tumors with similar metastatic patterns. For brain tumors, the metastatic index (a measure we defined as the fraction of hosts that acquired secondary tumors normalized for the amount of primary tumor growth) of each of the three mutants was similar. Analysis of cell proliferation in mutant brains suggests that the tumors arise from a population of several hundred cells which represent only 1-2% of the cells in third instar larval brains. For imaginal disc tumors from lethal giant larvae and brain tumor mutants, it is shown for the first time that they can be metastatic and invasive. Primary imaginal disc tumors from lethal giant larvae and brain tumor mutants formed secondary tumors in 43 and 53% of the hosts, respectively, although the secondary tumors were, in general, smaller than the secondary tumors derived from primary brain tumors.
We analyzed how cells from tumors caused by mutations in either lgl or brat use matrix metalloproteinases (MMPs) to facilitate metastasis in Drosophila. MMP1 accumulation is dramatically increased in lgl larval imaginal discs compared to both wild type and brat mutants. Removal of Mmp1 gene activity in lgl brain tumor cells reduced their frequency of ovarian micro-metastases after transplantation; whereas, removal of Mmp1 gene activity in brat tumor cells had no such effect. Host ovaries showed increased Mmp1 gene expression in response to transplantation of brat tumors but not of lgl tumors. Reduction of MMP activity in host ovaries by ectopic expression of TIMP significantly reduced both lgl and brat metastases in that organ. These results highlight the mechanisms that lgl and brat tumor cells use to metastasize. Our interpretation of these data is that secretion of MMP1 from lgl tumor cells facilitates their metastasis, while secretion of MMP1 from host ovaries facilitates brat tumor metastasis. This study is the first demonstration that Drosophila tumors utilize MMP activity to metastasize.
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