Development of the house secreting epithelium, a major innovation of tunicate larvaceans, involves multiple homeodomain transcription factors.

The mechanisms driving innovations that distinguish large taxons are poorly known and essentially accessible via a candidate gene approach. A spectacular acquisition by tunicate larvaceans is the house, a complex extracellular filtration device. Its components are secreted by the oikoplastic epithelium which covers the animal trunk. Here we describe the development of this epithelium in larvae through the formation of specific cellular territories known to produce distinct sets of house proteins (Oikosins). It involves cell divisions and morphological differentiation but very limited cell migration. A diverse set of homeobox genes, most often duplicated in the genome, are transiently and site-specifically expressed in the trunk epithelium at early larval stages. Using RNA interference, we show that two prop duplicates are involved in the differentiation of a region on and around the dorsal midline, regulating morphology and the production of a specific oikosin. Our observations favor a scenario in which multiple homeobox genes and most likely other developmental transcription factors were recruited for this innovation. Their frequent duplications probably predated, but were not required for the emergence of the house.

Embryonic expression of endogenous retroviral RNAs in somatic tissues adjacent to the Oikopleura germline.

Selective pressure to maintain small genome size implies control of transposable elements, and most old classes of retrotransposons are indeed absent from the very compact genome of the tunicate Oikopleura dioica. Nonetheless, two families of retrotransposons are present, including the Tor elements. The gene organization within Tor elements is similar to that of LTR retrotransposons and retroviruses. In addition to gag and pol, many Tor elements carry a third gene encoding viral envelope-like proteins (Env) that may mediate infection. We show that the Tor family contains distinct classes of elements. In some classes, env mRNA is transcribed from the 5'LTR as in retroviruses. In others, env is transcribed from an additional promoter located downstream of the 5'LTR. Tor Env proteins are membrane-associated glycoproteins which exhibit some features of viral membrane fusion proteins. Whereas some elements are expressed in the adult testis, many others are specifically expressed in embryonic somatic cells adjacent to primordial germ cells. Such embryonic expression depends on determinants present in the Tor elements and not on their surrounding genomic environment. Our study shows that unusual modes of transcription and expression close to the germline may contribute to the proliferation of Tor elements.

Conservation and divergence of chemical defense system in the tunicate Oikopleura dioica revealed by genome wide response to two xenobiotics.

BACKGROUND: Animals have developed extensive mechanisms of response to xenobiotic chemical attacks. Although recent genome surveys have suggested a broad conservation of the chemical defensome across metazoans, global gene expression responses to xenobiotics have not been well investigated in most invertebrates. Here, we performed genome survey for key defensome genes in Oikopleura dioica genome, and explored genome-wide gene expression using high density tiling arrays with over 2 million probes, in response to two model xenobiotic chemicals - the carcinogenic polycyclic aromatic hydrocarbon benzo[a]pyrene (BaP) the pharmaceutical compound Clofibrate (Clo). RESULTS: Oikopleura genome surveys for key genes of the chemical defensome suggested a reduced repertoire. Not more than 23 cytochrome P450 (CYP) genes could be identified, and neither CYP1 family genes nor their transcriptional activator AhR was detected. These two genes were present in deuterostome ancestors. As in vertebrates, the genotoxic compound BaP induced xenobiotic biotransformation and oxidative stress responsive genes. Notable exceptions were genes of the aryl hydrocarbon receptor (AhR) signaling pathway. Clo also affected the expression of many biotransformation genes and markedly repressed genes involved in energy metabolism and muscle contraction pathways. CONCLUSIONS: Oikopleura has the smallest number of CYP genes among sequenced animal genomes and lacks the AhR signaling pathway. However it appears to have basic xenobiotic inducible biotransformation genes such as a conserved genotoxic stress response gene set. Our genome survey and expression study does not support a role of AhR signaling pathway in the chemical defense of metazoans prior to the emergence of vertebrates.

Involvement of Prop1 homeobox gene in the early development of fish pituitary gland.

When mutated in mammals, paired-like homeobox Prop1 gene produces highly variable pituitary phenotypes with impaired regulation of Pit1 and eventually defective synthesis of Pit1-regulated pituitary hormones. Here we have identified fish prop1 orthologs, confirmed their pituitary-specific expression, and blocked the splicing of zebrafish prop1 transcripts using morpholino oligonucleotides. Very early steps of the gland formation seemed unaffected based on morphology and expression of early placodal marker pitx. Prop1 knock-down reduced the expression of pit1, prl (prolactin) and gh (growth hormone), as expected if the function of Prop1 is conserved throughout vertebrates. Less expectedly, lim3 was down regulated. This gene is expressed from early stages of vertebrate pituitary development but is not known to be Prop1-dependent. In situ hybridizations on prop1 morphants using probes for the pan pituitary gene pitx3 and for the hormone gene markers prl, gh and tshß, revealed abnormal shape, growth and cellular organization of the developed adenohypophysis. Strikingly, the effects of prop1 knock-down on adenohypophysis morphology and gene expression were gradually reversed during late development, despite persistent splice-blocking of transcripts. Therefore, prop1 function appears to be conserved between mammals and fish, at least for the mediation of hormonal cell type differentiation via pit1, but the existence of other fish-specific pathways downstream of prop1 are suggested by our observations.

Independent and dynamic reallocation of pitx gene expression during vertebrate evolution, with emphasis on fish pituitary development.

Several transcription regulators play key roles during pituitary morphogenesis. Well known intrinsic signals of the adenohypophysis such as the K(50)paired-like homeodomain proteins regulate commitment, proliferation, differential specification and maintenance of adenohypophyseal cells. We have cloned and successively characterized the mRNA localization of three pitx gene-pairs and three of their splice variants in salmon, pitx1alpha, pitx1beta; pitx2alpha, pitx2beta; pitx3alpha, pitx3beta; pitx1alphash, pitx1betash and pitx2alphaA. The high level of conservation between the pitx paralog-pairs indicates that they likely arose from lineage-specific genome duplication. We also report the isolation of a pitx1 gene in zebrafish. Comparative ISH studies of zebrafish, salmon and mouse pitx genes indicate both conservation and divergence of spatial expression domains in vertebrates. Significant differences were observed between the expressions of pitx orthologs during pituitary development. We suggest that the ancestral pituitary expression at early and late events of morphogenesis is preserved in different species through complementary shuffling of expression between the distinct pitx members of the family. Moreover, ISH analysis of the pitx salmon repertoire shows rapid evolution in this lineage, differences in spatio-temporal expression are observed between gene duplicates.

The caspase family in urochordates: distinct evolutionary fates in ascidians and larvaceans.

BACKGROUND INFORMATION: Caspases are cysteine proteases that mediate apoptosis (programmed cell death) initiation and execution. Apoptosis is a conserved mechanism shared by all metazoans, although its physiological function and complexity show considerable taxon-dependent variations. To gain insight into the caspase repertoire of putative ancestors to vertebrates, we performed exhaustive genomic searches in urochordates, a sister taxon to vertebrates in which ascidians and appendicularians display chordate characters at early stages of their development. RESULTS: We identified the complete caspase families of two ascidians (Ciona intestinalis and C. savignyi) and one larvacean (Oikopleura dioica). We found in ascidian species an extremely high number of caspase genes (17 for C. intestinalis and 22 for C. savignyi), deriving from five founder gene orthologues to human pro-inflammatory, initiator and executioner caspases. Although considered to be sibling species, C. intestinalis and C. savignyi only share 11 orthologues, most of the additional genes resulting from recent mass duplications. A sharply contrasted picture was found in O. dioica, which displayed only three caspase genes deriving from a single founder gene distantly related to caspase 3/7. The difference between ascidian and larvacean caspase repertoires is discussed in the light of their developmental patterns and life cycles. CONCLUSIONS: The identification of caspase members in two ascidian species delineates five founder genes that bridge the gap between vertebrates and Ecdysozoa (arthropods and nematodes). Given the amazing diversity among urochordates, determination and comparison of the caspase repertoires in species from orders additional to Enterogona (ascidians) and Oikopleuridae might be highly informative on the evolution of caspase-dependent physiological processes.

Retroelement dynamics and a novel type of chordate retrovirus-like element in the miniature genome of the tunicate Oikopleura dioica.

Retrotransposable elements have played an important role in shaping eukaryotic DNA, and their activity and turnover rate directly influence the size of genomes. With approximately 15,000 genes within 65-75 megabases, the marine tunicate Oikopleura dioica, a nonvertebrate chordate, has the smallest and most compact genome ever found in animals. Consistent with a massive elimination of retroelements, only one apparently novel clade of non-long terminal repeat (non-LTR) retrotransposons was detected within 41 megabases of nonredundant genomic sequences. In contrast, at least six clades of non-LTR elements were identified in the less compact genome of the tunicate Ciona intestinalis. Unexpectedly, Ty3/gypsy-related Tor LTR retrotransposons presented an astonishing level of diversity in O. dioica. They were generally poorly or apparently not corrupted, indicating recent activity. Both Tor3 and Tor4b families bore an envelope-like open reading frame, suggesting possible horizontal acquisition through infection. The Tor4b envelope-like gene might have been obtained from a paramyxovirus (RNA virus). Tor3 and Tor4b are phylogenetically clearly distinct from vertebrate retroviruses (Retroviridae) and are more reminiscent of certain insect and plant sequences. Tor elements potentially represent a so far unknown, ancient type of infectious retroelement in chordates. Their distribution and transmission dynamics in tunicates and other chordates deserve further study.

Analysis of cell-specificity and variegation of transgene expression driven by salmon prolactin promoter in stable lines of transgenic rainbow trout.

In order to identify the specificity and functionality of salmon prolactin (sPRL) promoter, transgenic rainbow trout carrying a construct comprising the 2.4 kb fragment of the 5' flanking region of Atlantic Chinook sPRL gene fused either to the reporter genes cat (sPRL-cat) or lacZ (sPRL-lacZ) were produced. sPRL-cat in transgenic F0 fish expressed strongly CAT only in the pituitary gland. Transgenic in F1-F4 lines harbouring sPRL-lacZ expressed beta-galactosidase (beta-gal) only in the follicular PRL-producing cells of the adenohypophysis. We observed heterocellular, mosaic distribution of beta-gal within PRL cell population and enormous variation of lacZ expression level between the littermates in the same transgenic line. Regardless of the transgene copy number, age or sex of transgenic fish, beta-gal expression was lactotroph-specific but variegated in all the nine F2 hemizygous lines analysed. One line harbouring a multicopy integration was followed up to F4 generation: the transgene was transmitted without modifications. Analysis of genomic DNA from pituitaries showed that lacZ sequences were highly methylated. LacZ expression was low and its transcripts, analysed by in situ hybridisation, showed a mosaic distribution within the pituitary gland. These data suggest that variegated expression of lacZ can occur at the transcription level owing to the silencing effect of lacZ gene. After proving the tissue-specific expression of reporter genes driven by the sPRL promoter, we tried to obtain the genetic ablation of PRL-producing cells,by transferring the same construct comprising diphtheria toxin DT-A gene (tox). However, the high mortality rate of sPRL-tox transformed embryos has embedded this study and no transgenic fish expressing tox were produced. The appropriateness of using transgenic strategies to analyse gene function in Salmonids is discussed, especially the implications of the multicopy integration patterns and of the variegated transgene expression.