Joëlle Asmar scite author profile

MicroRNAs are short non-coding endogenous RNAs that are implicated in regulating various aspects of plants and animal development, however their functions in organogenesis are largely unknown. Here we report that mir-9a belonging to the mir-9 family, regulates Drosophila wing development through a functional target site in the 3' untranslated region of the Drosophila LIM only protein, dLMO. dLMO is a transcription cofactor, that directly inhibits the activity of Apterous, the LIM-HD factor required for the proper dorsal identity of the wings. Deletions of the 3' untranslated region, including the mir-9a site, generate gain-of-function dLMO mutants (Beadex) associated with high levels of dLMO mRNA and protein. Beadex mutants lack wing margins, a phenotype also observed in null mir-9a mutants. We found that mir-9a and dLMO are co-expressed in wing discs and interact genetically for controlling wing development. Lack of mir-9a results in overexpression of dLMO, while gain-of-function mir-9a mutant suppresses dLMO expression. These data indicate that a function of mir-9a is to ensure the appropriate stoichiometry of dLMO during Drosophila wing development. The mir-9a binding site is conserved in the human counterpart LMO2, the T-cell acute leukemia oncogene, suggesting that mir-9 might apply a similar strategy to maintain LMO2 expression under a detrimental threshold.

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The Drosophila Toll Pathway Controls but Does Not Clear Candida glabrata Infections

Quintin

Asmar

Matskevich

et al. 2013

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The pathogenicity of Candida glabrata to patients remains poorly understood for lack of convenient animal models to screen large numbers of mutants for altered virulence. In this study, we explore the minihost model Drosophila melanogaster from the dual perspective of host and pathogen. As in vertebrates, wild-type flies contain C. glabrata systemic infections yet are unable to kill the injected yeasts. As for other fungal infections in Drosophila, the Toll pathway restrains C. glabrata proliferation. Persistent C. glabrata yeasts in wild-type flies do not appear to be able to take shelter in hemocytes from the action of the Toll pathway, the effectors of which remain to be identified. Toll pathway mutant flies succumb to injected C. glabrata. In this immunosuppressed background, cellular defenses provide a residual level of protection. Although both the Gram-negative binding protein 3 pattern recognition receptor and the Persephone protease-dependent detection pathway are required for Toll pathway activation by C. glabrata, only GNBP3, and not psh mutants, are susceptible to the infection. Both Candida albicans and C. glabrata are restrained by the Toll pathway, yet the comparative study of phenoloxidase activation reveals a differential activity of the Toll pathway against these two fungal pathogens. Finally, we establish that the high-osmolarity glycerol pathway and yapsins are required for virulence of C. glabrata in this model. Unexpectedly, yapsins do not appear to be required to counteract the cellular immune response but are needed for the colonization of the wild-type host.

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Drosophila dLMO-PA isoform acts as an early activator of achaete/scute proneural expression

Asmar¹,

Biryukova²,

Heitzler³

2008

Developmental Biology

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The Drosophila bHLH proneural factors Achaete (Ac) and Scute (Sc) are expressed in clusters of cells (proneural clusters), providing the cells with the potential to develop a neural fate. Mediodorsal proneural patterning is mediated through the GATA transcription factor Pannier (Pnr) that activates ac/sc directly through binding to the dorsocentral (DC) enhancer of ac/sc. Besides, the Gfi transcription factor Senseless (Sens), a target of Ac/Sc, synergizes with ac/sc in the presumptive sensory organ precursors (SOPs). Here we investigate, through new genetic tools, the function of dLMO, the Drosophila LIM only transcription factor that was already known to control wing development. We show that dLMO gene encodes two isoforms, dLMO-RA and dLMO-RB. dLMO null and dLMO-RA(-) deletions have similar phenotypes, lacking thoracic and wing margin sensory organs (SO), while dLMO-RB(-) deletion has normal SOs. At early stages, dLMO-RA is expressed in proneural clusters, however later it is excluded from the SOPs. We found that dLMO functions as a Pnr coactivator to promote ac/sc expression. In the late SOPs, where dLMO-PA is not expressed, Pnr participates to the Sens-dependent regulation of ac/sc. Taken together these results suggest that dLMO-PA is the major isoform that is required for early activation of ac/sc expression.

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Coexistence of Infectious Bronchitis and Infectious Laryngotracheitis

Lg¹,

Asmar²,

Gg³

1967

Avian Diseases

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01-P016 The Drosophila LIM-only, dLMO transcription factor that controls sensory organ and wing developments, is regulated by mir-9a

Biryukova

Asmar

Ackermann

et al. 2009

Mechanisms of Development

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Joëlle Asmar

Drosophila mir-9a regulates wing development via fine-tuning expression of the LIM only factor, dLMO

The Drosophila Toll Pathway Controls but Does Not Clear Candida glabrata Infections

Drosophila dLMO-PA isoform acts as an early activator of achaete/scute proneural expression

Coexistence of Infectious Bronchitis and Infectious Laryngotracheitis

01-P016 The Drosophila LIM-only, dLMO transcription factor that controls sensory organ and wing developments, is regulated by mir-9a

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