Enhanced prey capture skills in Astyanax cavefish larvae are independent from eye loss

Enhanced food-finding efficiency is an obvious adaptive response to cave environments. Here, we have compared the food-finding abilities of Astyanax surface fish and blind cavefish young larvae in their first month of life, in the dark. Our results show that enhanced prey capture skills of cavefish are already in effect in fry soon after the yolk is depleted and the young larvae must find food for themselves. Moreover, using prey capture competition assays on surface fish fry with lensectomies, we showed that eye-dependent developmental processes are not the main determinant for enhanced prey capture skills. Finally, using F2 hybrid larvae resulting from crosses between surface fish and cavefish, we found that reduced eyes do not confer a selective advantage for prey capture by fry in the dark. We discuss these data with regards to our current developmental and genetic understanding of cavefish morphological and behavioral evolution

First record of a freshwater cave sponge (Porifera, unknown gen. and sp.) in a cave inhabited by Astyanax cavefish in the Sierra de El Abra, San Luis Potosí, Mexico

The karstic cave, la Cueva de Los Sabinos, located in the Sierra de El Abra in the state of San Luis Potosí, Mexico, is mostly known for hosting a population of blind, depigmented Astyanax mexicanus cavefish. Herein, we report the discovery of a non-pigmented sponge (Porifera) in the final sump of this cave. No genus or species name could be attributed because we did not collect any specimen. Up to now, the sponge distribution seems restricted to a single pool in la Cueva de Los Sabinos, but further careful exploration of other pools of the cave as well as closely related cavities is warranted. To our knowledge, this observation constitutes the fourth report of a freshwater, white, cave-adapted sponge in the world and the first for Mexico and North America. It is also the eleventh troglobite species encountered in Los Sabinos. Our discovery confirms the exceptionally rich biodiversity of this cave ecosystem

Neurodevelopment Genes in Lampreys Reveal Trends for Forebrain Evolution in Craniates

The forebrain is the brain region which has undergone the most dramatic changes through vertebrate evolution. Analyses conducted in lampreys are essential to gain insight into the broad ancestral characteristics of the forebrain at the dawn of vertebrates, and to understand the molecular basis for the diversifications that have taken place in cyclostomes and gnathostomes following their splitting. Here, we report the embryonic expression patterns of 43 lamprey genes, coding for transcription factors or signaling molecules known to be involved in cell proliferation, stemcellness, neurogenesis, patterning and regionalization in the developing forebrain. Systematic expression patterns comparisons with model organisms highlight conservations likely to reflect shared features present in the vertebrate ancestors. They also point to changes in signaling systems –pathways which control the growth and patterning of the neuroepithelium-, which may have been crucial in the evolution of forebrain anatomy at the origin of vertebrates

La boîte à outils de l’évolution développementale ou comment les poissons cavernicoles mexicains ont perdu leurs yeux

Le poisson Astyanax mexicanus se présente sous deux formes très différentes : un morphe de rivière « normal », et un morphe cavernicole, aveugle et dépigmenté, vivant dans l’obscurité totale et permanente de grottes mexicaines. Cette espèce est en passe de devenir un modèle de choix en biologie évolutive et comparée, tant pour l’étude de l’évolution des comportements, de la physiologie ou de la morphologie, que pour la génétique moléculaire ou la génétique des populations. Je présente ici l’avancée des connaissances dans le domaine de l’évolution développementale de l’œil du morphe cavernicole. En remontant dans le temps son développement « à l’envers » depuis l’œil de la larve jusqu’au champ rétinien en fin de gastrulation, l’embryon d’Astyanax cavernicole révèle des mécanismes et processus susceptibles de contribuer aux variations évolutives entre espèces et aux variations pathologiques de la morphogenèse de la région optique

The healthy diabetic cavefish conundrum

International audienc

Editorial: the vertebrate forebrain.

EditorialInternational audienc

Engrailed and retinotectal topography

International audienceWe examine the role of the Engrailed homeobox gene in establishment of local tectal topography. In the mesencephalon, a gradient of Engrailed appears early and defines the rostrocaudal axis of the tectum. Various experiments that cause ectopic Engrailed expression cause predictable readjustments of the retinotectal map. The newly discovered 'realisators' of the retinotopic map, such as receptor tyrosine kinase ligands ELF-1 and RAGS could be controlled directly by Engrailed. Indeed, recent results show that Engrailed regulates the expression of these ligands. The Engrailed gradient itself appears to be set up by signals including FGF8 and WNTI, allowing us to begin to trace the molecular cascade that is responsible for the correct wiring of the visual projection back into the early embryo

Organisation of the lamprey (Lampetra fluviatilis) embryonic brain : insights from LIM-homeodomain, Pax and hedgehog genes.

To investigate the embryonic development of the central nervous system of the lamprey Lampetra fluviatilis, we have isolated and analysed the expression patterns of members of the LIM-homeodomain, Pax, Hedgehog and Nkx2.1 families. Using degenerate RT-PCR, single representatives of Lhx1/Lhx5, Lhx2/Lhx9, Pax3/Pax7 and Hedgehog families could be isolated in L. fluviatilis. Expression analysis revealed that the lamprey forebrain presents a clear neuromeric pattern. We describe the existence of 4 embryonic diencephalic prosomeres whose boundaries can be identified by the combined and relative expressions of LfPax37, LfLhx15 and LfLhx29. This suggests that the embryonic lamprey and gnathostome forebrain are patterned in a highly similar manner. Moreover, analysis of the LfHh gene, which is expressed in the hypothalamus, zona limitans intrathalamica and floor plate, reveals the possible molecular origin of this neuromeric brain pattern. By contrast, LfHh and LfNkx2.1 expressions suggest major differences in patterning mechanisms of the ventral telencephalon when compared to gnathostomes. In summary, our findings highlight a neuromeric organisation of the embryonic agnathan forebrain and point to the possible origin of this organisation, which is thus a truly vertebrate character. They also suggest that Hh/Shh midline signalling might act as a driving force for forebrain evolution

A short history of LIM domains (1993-2002): from protein interaction to degradation.

The LIM domain is a cysteine-rich zinc-finger motif found in a large family of proteins. In LIM-homeodomain (LIM-hd) transcription factors and LIM-only (LMO) factors, the LIM domains are responsible for key interactions with co-activators, co-repressors, competitors, and other transcription factors, and are therefore of considerable importance for the regulation of associated transcriptional activity. In this review, the authors describe the progressive discoveries of NLI/Ldb/CLIM, LMO and RLIM, and discuss how the field was very recently updated by the finding that LIM-hd transcriptional activity is controlled by regulated degradation of cofactors and LIM-hd themselves