Publications by Year: 2007

2007

Nolde, Mona J, Nazli Saka, Kristy L Reinert, and Frank J Slack. (2007) 2007. “The Caenorhabditis Elegans Pumilio Homolog, Puf-9, Is Required for the 3’UTR-Mediated Repression of the Let-7 MicroRNA Target Gene, Hbl-1.”. Developmental Biology 305 (2): 551-63.

The Puf family of RNA-binding proteins directs cell fates by regulating gene expression at the level of translation and RNA stability. Here, we report that the Caenorhabditis elegans pumilio homolog, puf-9, controls the differentiation of epidermal stem cells at the larval-to-adult transition. Genetic analysis reveals that loss-of-function mutations in puf-9 enhance the lethality and heterochronic phenotypes caused by mutations in the let-7 microRNA (miRNA), while suppressing the heterochronic phenotypes of lin-41, a let-7 target and homolog of Drosophila Brat. puf-9 interacts with another known temporal regulator hbl-1, the Caenorhabditis elegans ortholog of hunchback. We present evidence demonstrating that puf-9 is required for the 3'UTR-mediated regulation of hbl-1, in both the hypodermis and the ventral nerve cord. Finally, we show that this regulation is dependent on a region of the hbl-1 3'UTR that contains putative Puf family binding sites as well as binding sites for the let-7 miRNA family, suggesting that puf-9 and let-7 may mediate hypodermal seam cell differentiation by regulating common targets.

Niwa, Ryusuke, and Frank J Slack. (2007) 2007. “The Evolution of Animal MicroRNA Function.”. Current Opinion in Genetics & Development 17 (2): 145-50.

MicroRNAs (miRNAs) are a large class of small RNAs that function as negative gene regulators in eukaryotes. They regulate diverse biological processes, and bioinformatics data indicate that each miRNA can control hundreds of gene targets, underscoring the potential influence of miRNAs on almost every genetic pathway. In addition to the roles in ontogeny, recent evidence has suggested the possibility that miRNAs have huge impacts on animal phylogeny. The dramatically expanding repertoire of miRNAs and their targets appears to be associated with major body-plan innovations as well as the emergence of phenotypic variation in closely related species. Research in the area of miRNA phylogenetic conservation and diversity suggests that miRNAs play important roles in animal evolution, by driving phenotypic variation during development.

Johnson, Charles D, Aurora Esquela-Kerscher, Giovanni Stefani, Mike Byrom, Kevin Kelnar, Dmitriy Ovcharenko, Mike Wilson, et al. (2007) 2007. “The Let-7 MicroRNA Represses Cell Proliferation Pathways in Human Cells.”. Cancer Research 67 (16): 7713-22.

MicroRNAs play important roles in animal development, cell differentiation, and metabolism and have been implicated in human cancer. The let-7 microRNA controls the timing of cell cycle exit and terminal differentiation in Caenorhabditis elegans and is poorly expressed or deleted in human lung tumors. Here, we show that let-7 is highly expressed in normal lung tissue, and that inhibiting let-7 function leads to increased cell division in A549 lung cancer cells. Overexpression of let-7 in cancer cell lines alters cell cycle progression and reduces cell division, providing evidence that let-7 functions as a tumor suppressor in lung cells. let-7 was previously shown to regulate the expression of the RAS lung cancer oncogenes, and our work now shows that multiple genes involved in cell cycle and cell division functions are also directly or indirectly repressed by let-7. This work reveals the let-7 microRNA to be a master regulator of cell proliferation pathways.

Chan, Shih-Peng, and Frank J Slack. (2007) 2007. “And Now Introducing Mammalian Mirtrons.”. Developmental Cell 13 (5): 605-7. https://doi.org/10.1016/j.devcel.2007.10.010.

Mirtrons are short hairpin introns recently found in flies and nematodes that provide an alternative source for animal microRNA biogenesis and use the splicing machinery to bypass Drosha cleavage in initial maturation. The presence of mirtrons outside of invertebrates was not previously known. In the October 26 issue of Molecular Cell, Berezikov et al. expose a number of short mammalian introns as mirtrons.

Weidhaas, Joanne B, Imran Babar, Sunitha M Nallur, Phong Trang, Sarah Roush, Michelle Boehm, Erin Gillespie, and Frank J Slack. (2007) 2007. “MicroRNAs As Potential Agents to Alter Resistance to Cytotoxic Anticancer Therapy.”. Cancer Research 67 (23): 11111-6.

Tumor cells use preexisting prosurvival signaling pathways to evade the damaging and cytotoxic effects of anticancer agents. Radiation therapy is a primary form of cytotoxic anticancer treatment, but agents that successfully modify the radiation response in vivo are lacking. MicroRNAs (miRNA) are global gene regulators that play critical roles in oncogenesis and have been found to regulate prosurvival pathways. However, there is little understanding of how cellular miRNA expression affects the response of a cancer to cytotoxic therapy and ultimately outcome. The let-7 family of miRNAs regulates expression of oncogenes, such as RAS, and is specifically down-regulated in many cancer subtypes. In fact, low levels of let-7 predict a poor outcome in lung cancer. Here, we report that the let-7 family of miRNAs is overrepresented in a class of miRNAs exhibiting altered expression in response to radiation. More strikingly, we also can create a radiosensitive state when the select let-7 family of miRNAs is overexpressed in vitro in lung cancer cells and in vivo in a Caenorhabditis elegans model of radiation-induced cell death, whereas decreasing their levels causes radioresistance. In C. elegans, we show that this is partly through control of the proto-oncogene homologue let-60/RAS and genes in the DNA damage response pathway. These findings are the first direct evidence that miRNAs can suppress resistance to anticancer cytotoxic therapy, a common feature of cancer cells, and suggest that miRNAs may be a viable tool to augment current cancer therapies.