Mark A. Mortin

Armadillo coactivates transcription driven by the product of the Drosophila segment polarity gene dTCF

The vertebrate transcription factors TCF (T cell factor) and LEF (lymphocyte enhancer binding factor) interact with beta-catenin and are hypothesized to mediate Wingless/Wnt signaling. We have cloned a maternally expressed Drosophila TCF family member, dTCF. dTCF binds a canonical TCF DNA motif and interacts with the beta-catenin homolog Armadillo. Previous studies have identified two regions in Armadillo required for Wingless signaling. One of these interacts with dTCF, while the other constitutes a transactivation domain. Mutations in dTCF and expression of a dominant-negative dTCF transgene cause a segment polarity phenotype and affect expression of the Wingless target genes engrailed and Ultrabithorax. Epistasis analysis positions dTCF downstream of armadillo. The Armadillo-dTCF complex mediates Wingless signaling as a bipartite transcription factor.

Multiple functions of Drosophila heat shock transcription factor in vivo

Heat shock transcription factor (HSF) is a transcriptional activator of heat shock protein (hsp) genes in eukaryotes. In order to elucidate the physiological functions of HSF in Drosophila, we have isolated lethal mutations in the hsf gene. Using a conditional allele, we show that HSF has an essential role in the ability of the organism to survive extreme heat stress. In contrast to previous results obtained with yeast HSF, the Drosophila protein is dispensable for general cell growth or viability. However, it is required under normal growth conditions for oogenesis and early larval development. These two developmental functions of Drosophila HSF are genetically separable and appear not to be mediated through the induction of HSPs, implicating a novel action of HSF that may be unrelated to its characteristic function as a stress‐responsive transcriptional activator.

Identification of the Drosophila melanogaster homologue of the mammalian signal transducer protein, Vav.

Mammalian Vav signal transducer protein couples tyrosine kinase signals with the activation of the Rho/Rac GTPases, thus leading to cell differentiation and/or proliferation. We have isolated and characterized the DroVav gene, the homologue of hVav in Drosophila melanogaster. DroVav encodes a protein (793 residues) whose similarity with hVav is 47% and with hVav2 and hVav3 is 45%. DroVav preserves the unique, complex structure of hVav proteins, including the ‘calponin homology’, dbl homology, pleckstrin homology; SH2 and SH3 domains in addition to regions that are acidic rich, proline rich and cysteine rich. DroVav is located on the X chromosome in polytene interval 18A5;18B and is expressed in all stages of development and in all tissues. In mammalian cells, DroVav is tyrosine‐phosphorylated in response to epidermal growth factor receptor (EGFR) induction; in vitro, the DroVav SH2 region is associated with tyrosine‐phosphorylated EGFR. Thus, DroVav probably plays a pivotal role as a signal transducer protein during fruit fly development.

Drosophila caliban, a nuclear export mediator, can function as a tumor suppressor in human lung cancer cells

We previously showed that the Drosophila DNA binding homeodomain of Prospero included a 28 amino-acid sequence (HDA) that functions as a nuclear export signal. We describe here the identification of a protein we named Caliban, which can directly interact with the HDA. Caliban is homologous to human Sdccag1, which has been implicated in colon and lung cancer. Here we show that Caliban and Sdccag1 are mediators of nuclear export in fly and human cells, as interference RNA abrogates export of EYFP-HDA in normal fly and human lung cells. Caliban functions as a bipartite mediator nuclear export as the carboxy terminus binds HDA and the amino terminus itself functions as an NES, which directly binds the NES receptor Exportin. Finally, while non-cancerous lung cells have functional Sdccag1, five human lung carcinoma cell lines do not, even though Exportin still functions in these cells. Expression of fly Caliban in these human lung cancer cells restores EYFP-HDA nuclear export, reduces a cells ability to form colonies on soft agar and reduces cell invasiveness. We suggest that Sdccag1 inactivation contributes to the transformed state of human lung cancer cells and that Caliban should be considered a candidate for use in lung cancer gene therapy.

The Carboxy Terminus of Prospero Regulates Its Subcellular Localization

ABSTRACT Subcellular localization of the transcription factor Prospero is dynamic. For example, the protein is cytoplasmic in neuroblasts, nuclear in sheath cells, and degraded in newly formed neurons. The carboxy terminus of Prospero, including the homeodomain and Prospero domain, plays roles in regulating these changes. The homeodomain has two distinct subdomains, which exclude proteins from the nucleus, while the intact homeo/Prospero domain masks this effect. One subdomain is an Exportin-dependent nuclear export signal requiring three conserved hydrophobic residues, which models onto helix 1. Another, including helices 2 and 3, requires proteasome activity to degrade nuclear protein. Finally, the Prospero domain is missing in prosI13 embryos, thus unmasking nuclear exclusion, resulting in constitutively cytoplasmic protein. Multiple processes direct Prospero regulation of cell fate in embryonic nervous system development.

DroVav, the Drosophila melanogaster homologue of the mammalian Vav proteins, serves as a signal transducer protein in the Rac and DER pathways.

Mammalian Vav signal transducer proteins couple receptor tyrosine kinase signals to the activation of the Rho/Rac GTPases, leading to cell differentiation and/or proliferation. The unique and complex structure of mammalian Vav proteins is preserved in the Drosophila melanogaster homologue, DroVav. We demonstrate that DroVav functions as a guanine-nucleotide exchange factor (GEF) for DRac. Drosophila cells overexpressing wild-type (wt) DroVav exhibited a normal morphology. However, overexpression of a truncated DroVav mutant (that functions as an oncogene when expressed in NIH3T3 cells) results in striking changes in the actin cytoskeleton, resembling those usually visible following Rac activation. Dominant-negative DRac abrogated these morphological changes, suggesting that the effect of the truncated DroVav mutant is mediated by activation of DRac. In Drosophila cells, we find that stimulation of the Drosophila EGF receptor (DER) increases tyrosine phosphorylation of DroVav, which in turn associates with tyrosine-phosphorylated DER. In addition, the following results imply that DroVav participates in downstream DER signalling, such as ERK phosphorylation: (a) overexpression of DroVav induces ERK phosphorylation; and (b) ‘knockout’ of DroVav by RNA interference blocks ERK phosphorylation induced by DER stimulation. Unlike mammalian Vav proteins, DroVav was not found to induce Jnk phosphorylation under the experimental circumstances tested in fly cells. These results establish the role of DroVav as a signal transducer that participates in receptor tyrosine kinase pathways and functions as a GEF for the small RhoGTPase, DRac.

Malaria sporozoite antigen-directed genome-wide response in transgenic Drosophila.

Malaria kills a million people annually. Understanding the relationship between a causative parasite, Plasmodium falciparum, and the mosquito vector might suggest novel prevention approaches. We created and transformed into Drosophila two genes encoding, thrombospondin‐related adhesive protein (TRAP) and circumsporozoite protein (CSP), found on the cell surface of Plasmodium sporozoites. To understand a model insects response, we induced these proteins separately and together, performing whole genome microarray analysis measuring gene expression changes. Gene ontology classification of responding genes reveals that TRAP and CSP strongly and differentially influence Drosophila genes involved with cell motility and gene regulation, respectively; however, the most striking effects are on the immune system. While immune‐related genes are but modestly elevated compared with responses to sepsis, there is a marked repression of the Toll pathway. This suggests: (1) how Plasmodium infection of the mosquito might use TRAP and CSP to modulate the host insects physiology to promote sporozoite survival and transmission to man and (2) that approaches to elevate expression of the mosquitos Toll pathway might lead to novel methods of malaria prevention. genesis 47:196–203, 2009.

Genomic organization of the segment polarity gene pan in Drosophila melanogaster

Abstract We previously described the molecular cloning of a mammalian T cell factor 1 (TCF-1)-like protein from Drosophila melanogaster, encoded by the pangolin (pan) locus, and demonstrated that it consists of a DNA binding domain similar to that of other high mobility group proteins and a protein-protein interaction domain that binds β-catenin (Armadillo in Drosophila) but that it lacks a transcriptional activation domain. Here we show that the pan locus spans approximately 50 kb and the mRNA results from the splicing of 13 exons. We note remarkable conservation of the exon/intron boundaries between the human and D. melanogaster genes, suggesting that they share a common ancestor. Chromosomal in situ hybridization locates pan to the base of chromosome 4, near the cubitus interruptus locus. Restriction map and sequence analyses confirm their close proximity. The small fourth chromosome undergoes little or no recombination and was previously reported to lack DNA polymorphisms; however, we note two DNA polymorphisms occurring in three combinations within the pan locus, demonstrating the presence of synonymous substitutions and the past occurrence of recombination. We present evidence suggesting that the protein encoded by pan is more similar to mammalian TCF-1 and Caenorhabditis elegans POP-1 than to mammalian LEF-1.

Transcriptional Competition and Homeosis in Drosophila

Interference between different classes of RNA polymerase II alleles causes a mutant phenotype called the “Ubx effect” that resembles one seen in flies haploinsufficient for the transcription factor,Ultrabithorax (Ubx). Flies carrying the mutation in the largest subunit ofDrosophila RNA polymerase II,RpII2154, display the Ubx effect when heterozygous as inRpII2154/+ but not when homozygous mutant or wild type. In this report we demonstrate that the interaction between alleles in different classes of polymerase occurs even in the absence of transcription by the wild-type polymerase. We utilized the resistance to the transcriptional inhibitor α-amanitin conferred byRpII2154 to show thatRpII2154/+ flies raised on α-amanitin-containing food still show the Ubx effect and are indistinguishable from flies raised on normal food. We demonstrate using HPLC that the intracellular concentration of α-amanitin in the developing larvae is sufficient to inhibit transcription by α-amanitin-sensitive polymerase. Furthermore, fluorescein-labeled α-amanitin accumulates in imaginal discs, which are the precursor cells for the tissue showing the homeotic transformation in adults. We conclude that the interaction between different classes of RNA polymerase II alleles resulting in the Ubx effect occurs prior to the block in transcription caused by α-amanitin.

Abstract 1108: The Drosophila Caliban suppresses tumor formation through both DNA damage repair and apoptosis

The tumor suppressor gene sdccag1 is down-regulated in human colon cancer cell lines, its Drosophila homolog caliban was screened using a functional HDA domain of homeobox gene prospero as bait. In our previous work, we had suggested Caliban is a bipartite nuclear export mediator, working through the Exportin pathway, and itself can shuttle between cytoplasm and nucleus. To study its tumor suppression functions, we generated knock-out Drosophila Melanogaster of caliban by gene targeting strategy. The caliban knock-out flies are viable and fertile, similar as tumor suppressor gene Dmp53 knock-out flies. While caliban null flies have retarded growth by three days, this delayed growth was rescued by Dmp53 mutation. The caliban flies are sensitive to irradiation, and its DNA damage sensitivity depends on p53. High dosage treatment with irradiation causes tumor formation in caliban null flies, while atm and caliban double mutant flies have autonomous tumor formation, which is similar as atm p53 double mutant. The tumor suppression function of caliban was also studied in an in vivo mouse model where lung tumor cells A549 were implanted subcutaneously into athymic nude mice, we observed the greatly reduced tumor size in caliban expressing A549 cells. These preliminary results suggest caliban may compensate with p53 to suppress the tumor predisposition through both DNA damage repair and apoptosis. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 1108.