Daniele P. Romancino

Toxicity of recombinant β-amyloid prefibrillar oligomers on the morphogenesis of the sea urchin Paracentrotus lividus

A distinctive feature of Alzheimers disease is the deposition of amyloid β‐protein (Aβ) in senile or diffuse plaques. The 42 residue β‐peptide (Aβ42) is the predominant form found in plaques. In the present work we report a high‐yield expression and purification method of production of a recombinant Aβ42. The purified recombinant peptide shows characteristics similar to the synthetic human peptide. Different size aggregates, either small oligomers or larger aggregates, were obtained upon dissolving the recombinant Aβ42 peptide under different conditions at pH 7.2 or pH 3, respectively. We report a new toxicity assay on the morphogenic development of the sea urchin Paracentrotus lividus and study the toxicity of the two kinds of aggregates. Despite the difference between the ionic strength of human extracellular fluid (0.154 mol/l) and artificial sea water (0.48 mol/l), toxicity data collected in this system have an intrinsic relevance. The different ionic strength, in fact, could change the kinetics of oligomer formation, but the effect of morphogenic development reported here is related to the final oligomer sizes. Results of the toxicity assay of Aβ42 on sea urchin development also show a dose‐dependent effect. After only 4 h of embryo development, one can note morphological defects in the cell membrane. Retardation of the embryos development, along with cellular disorders visible inside the blastocoele, can be observed after 1 day of development. Cellular degeneration in two different pathological phenotypes—the occluded blastulae and the occluded prism—is present after 48 h of development. Results show that a greater effect on cell death is induced by the small oligomers stabilized under physiological conditions than at acid pH. In this case only occluded blastulae are found after 48 h of development.—Carrotta, R., Di Carlo, M., Manno, M., Montana, G., Picone, P., Romancino, D., San Biagio, P. L. Toxicity of recombinant β‐amyloid prefibrillar oligomers on the morphogenesis of the sea urchin Paracentrotus lividus. FASEB J. 20, E1301–E1308 (2006)

Cloning, expression, and localization of a new member of a Paracentrotus lividus cell surface multigene family

We have isolated and characterized a cDNA clone corresponding to a new member of bep (butanol, extracted, proteins) Paracentrotus lividus multigene family coding for cell surface proteins. The cDNA, called bep3, encodes a 370 amino acid protein and shares the same structural organization in the coding region with other members of the same gene family already characterized. Expression of this clone studied by Northern blot and by whole mount hybridization shows that the bep3 messenger is transcribed during oogenesis and utilized till the gastrula stage, whereas at the prism stage, unlike other members of the same gene family, new synthesis of messenger occurs. By whole mount hybridization spatial distribution of bep3 messenger in egg and embryos is established. This messenger appears located in the animal half of the unfertilized egg and moves to the cortical zone after fertilization; it is not present in the structures derived by the vegetal part of the embryo, such as the micromeres of the 16‐cell stage, the primary mesenchyme cells of the blastula, and the primary intestine of the gastrula. At the prism stage instead, hybridization of bep3 messenger is restricted to the part of the embryo that will give origin to the oral region as successively confirmed by hybridization at the pluteus stage. The result of whole mount hybridization was confirmed by Northern blot hybridization of separated meso‐macromere and micromere RNAs. A Southern blot experiment demonstrates that bep3 is codified by a single copy gene. Conservation of the bep multigene family in several Mediterranean and Japanese sea urchin species has also been analyzed.

Folding and binding activity of the 3′UTRs of Paracentrotus lividus bep messengers

Bep mRNAs are localized at the animal pole of P. lividus eggs. In the present communication the secondary structures of the 3′UTRs of the bep1, bep3 and bep4 mRNAs are reported. The minimal lenghts of these regions required to bind the 54‐kDa protein, previously shown to be involved in localization and anchoring of these RNAs, is estimated. Microinjection of the bep3 3′UTR into egg shows that this RNA fragment is also able to become localized to one of the egg poles, as happens for the entire bep3 RNA.

Asymmetrical localization and segregation of Paracentrotus lividus Bep4 maternal protein.

Asymmetric divisions that produce two distinct cells play a fundamental role in generating different cell types during development. Here we investigate the role of the cortex region and mitotic apparatus in asymmetrical localization and segregation of Bep4 protein in Paracentrotus lividus egg. By centrifugation of eggs with or without drugs we established an involvement of the cortex region in localization of Bep4 protein, confirmed by immunohistochemistry of isolated cortex. Association with the mitotic apparatus during cell division permits selective partitioning of Bep4 protein into the daughter cells. Direct association with spindle was also demonstrated both by Western blot and immunohistochemistry after isolation of the mitotic apparatus.

Centrifugation does not alter spatial distribution of `BEP4' mRNA in paracentrotus lividus EGG

Paracentrotus lividus unfertilized eggs were centrifuged in a sucrose gradient, so to split each into two parts: a nucleated light fragment and an anucleated heavy fragment. Northern blot analyses utilizing a bep4 probe as animal marker and H2A histone gene and 12S‐mit RNA as controls indicate that the eggs are elongated along the animal‐vegetal axis during centrifugation and thereafter split into an animal and a vegetal half. Treatment of the eggs with colchicine before centrifugation abolishes the animal localization of bep4 mRNA.

Cloning and sequencing of a cell surface protein-encoding gene conserved in sea urchin species.

We report the nucleotide sequence of a fragment of DNA derived from a sea urchin genomic clone containing the cell surface Bep4 (butanol-extracted protein 4)-encoding gene. The structural gene is interrupted by four introns and the promoter region contains TATA and CAAT consensus motifs. The transcription start point (tsp) was also determined. Remarkable homologies, between Bep4 and other proteins known to be involved in cell interactions, were observed regarding two potential Ca(2+)-binding sites and the corresponding DNA consensus sequences. We also report the conservation of the bep4 gene and its corresponding Bep4 protein between various sea urchin species by way of Southern and Western blotting.

EGFR signalling is required for Paracentrotus lividus endomesoderm specification

The EGFR pathway is critical for cell fate specification throughout the development of several organisms. Here we identified in sea urchin an EGFR-related antigen maternally expressed and showing a dynamic pattern of localization during development. To investigate the role played by the EGFR in Paracentrotus lividus development we blocked its activity by using the EGFR kinase inhibitor AG1478. This treatment produces decrease of EGFR phosphorylation, and embryos with various defects especially in the endomesoderm territory until to obtain an animalized phenotype. These effects are rescued by the addition of TGF-alpha, an EGFR ligand. The role played by EGFR-like along the animal/vegetal axis was also detected, after AG1478 treatment, by the extended distribution of HE and decreased nuclearization of beta-catenin in vegetal cells. Moreover, inhibition of EGFR-like reduced ERK phosphorylation, necessary for cell fate specification in the micromeres and their derivates. Taken together these results indicate that EGFR-like activity is required both for A/V axis formation and endomesoderm differentiation.

Molecular Characterization of a Variable Tandem Repeat Sequence Determined during RAPD Analysis among Posidonia oceanica Insular and Coastline Populations

The seagrass Posidonia oceanica plays a multifunctional role in the coastal area as an important and productive component of ecosystems in the Mediterranean Sea. We detected by RAPD analysis with two arbitrary primers genetic differences in P. oceanica collected from several sites in the Southern Mediterranean. By AMOVA analysis we observed a level of about 20% genetic difference among individuals within a population and 80% among populations. A common band of 200 bp was found in all the amplified samples. Cloning and sequencing analysis of this band revealed the presence of a simple tandem repeat sequence (minisatellite) that we called PoTR (Posidonia oceanica tandem repeat). Finally, the ability of PoTR to detect genetic variability inP. oceanica genome was demonstrated by the presence of amplification products of different lengths utilizing primers internal to this sequence.

Temporal-spatial expression of two Paracentrotus lividus cell surface proteins.

The temporal expression of two cell surface proteins, called BEP1 and BEP4, during Paracentrosus lividus embryonic development was studied. These proteins are found in both monomeric and dimeric forms in egg and embryos and we have established that their specific form is related to their being in the cytoplasm or on the cell surface. The spatial distribution of BEP1 and BEP4 proteins in eggs and embryos was established by whole mount immunohistochemistry. These proteins are located in the animal part of unfertilized and fertilized eggs; thereafter they are much less represented in structures derived from the vegetal cells of the embryo such as the micromeres of the 16 cell stage, the primary mesenchyme of blastula and the gut of gastrula. At the prism stage BEP1 and BEP4 proteins are present to some ectodermal parts and thereafter, at the pluteus stage, to the oral region.

Molecular mechanism for establishment of the animal-vegetal axis in sea urchin development

It is demonstrated that the animal side of the unfertilizedParacentrotus egg can be identified for the location of the female pronucleus on that side. It was therefore possible to demonstrate that the previously described bep RNAs and proteins are exclusively located in the animal part of the unfertilized egg. These RNAs are anchored to this part of the egg because they are binding to the cytoskeleton, probably through their 3’UTR.RiassuntoSi dimostra che il lato animale dell’uovo vergine inParacentrotus lividus è riconoscibile dalla localizzazione del pronucleo femminile in quel lato stesso. E stato pertanto possibile dimostrare che gli RNA bep, già descritti, e le rispettive protéine, sono localizzati nella parte animale dell’uovo vergine. Questi RNA si ancorano in questa parte dell’uovo perché sono legati al citoscheletro, probabilmente attraverso loro 3’UTR.