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1. Hexagonal Voronoi pattern detected in the microstructural design of the echinoid skeleton

Author

Perricone V., Grun T. B., Rendina F., Marmo F., Candia Carnevali M. D., Kowalewski M., Facchini A., De Stefano M., Santella L., Langella C., Micheletti A., Perricone, V., Grun, T. B., Rendina, F., Marmo, F., Candia Carnevali, M. D., Kowalewski, M., Facchini, A., De Stefano, M., Santella, L., Langella, C., and Micheletti, A.

Subjects
Stereom, Animal, Voronoi, Paracentrotus, Trabecular system, Echinoid, Stress, Mechanical, Skeleton, Spine, Geometric pattern
Abstract

Repeated polygonal patterns are pervasive in natural forms and structures. These patterns provide inherent structural stability while optimizing strength-per-weight and minimizing construction costs. In echinoids (sea urchins), a visible regularity can be found in the endoskeleton, consisting of a lightweight and resistant micro-trabecular meshwork (stereom). This foam-like structure follows an intrinsic geometrical pattern that has never been investigated. This study aims to analyse and describe it by focusing on the boss of tubercles-spine attachment sites subject to strong mechanical stresses-in the common sea urchin Paracentrotus lividus. The boss microstructure was identified as a Voronoi construction characterized by 82% concordance to the computed Voronoi models, a prevalence of hexagonal polygons, and a regularly organized seed distribution. This pattern is interpreted as an evolutionary solution for the construction of the echinoid skeleton using a lightweight microstructural design that optimizes the trabecular arrangement, maximizes the structural strength and minimizes the metabolic costs of secreting calcitic stereom. Hence, this identification is particularly valuable to improve the understanding of the mechanical function of the stereom as well as to effectively model and reconstruct similar structures in view of future applications in biomimetic technologies and designs.

Published
2022

24. Roles of the actin-binding proteins in intracellular Ca2+ signalling.

Author

Chun, J. T. and Santella, L.

Subjects
*STARFISHES, *OVUM, *MICROFILAMENT proteins, *ENDOPLASMIC reticulum, *ORGANELLES, *CYTOSKELETON
Abstract

Starfish oocytes undergo massive intracellular Ca2+ signalling during meiotic maturation and fertilization. Although the igniting stimulus of Ca2+ mobilization may differ in different cell contexts, its final leverage is usually the Ca2+-releasing second messengers such as InsP3, cADPr and NAADP. The general scheme of intracellular Ca2+ release is that the corresponding receptors for these molecules serve as ion channels to release free Ca2+ from its internal stores such as the lumen of the endoplasmic reticulum. However, a growing body of evidence has suggested that intracellular Ca2+ release can be strongly modulated by the actin cytoskeleton. Although it is known that Ca2+ contributes to remodelling of the actin cytoskeleton, whether the actin cytoskeleton modulates Ca2+ signalling in return has not been much explored. An emerging candidate to answer to this reciprocal causality of Ca2+ and the actin cytoskeleton may be actin-binding proteins. In this review, we discuss how the actin cytoskeleton may fit into the known mechanisms of intracellular Ca2+ release, and propose two models to explain the experimental data. [ABSTRACT FROM AUTHOR]

Published
2009
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25. The cell cycle: a new entry in the field of Ca2+ signaling.

Author

Santella, L., Ercolano, E., and Nusco, G. A.

Subjects
*SIGNALS & signaling, *FERTILIZATION (Biology), *CELLS, *BIOLOGICAL rhythms, *CELL cycle
Abstract

Ca2+ signaling plays a crucial role in virtually all cellular processes, from the origin of new life at fertilization to the end of life when cells die. Both the influx of external Ca2+ through Ca2+-permeable channels and its release from intracellular stores are essential to the signaling function. Intracellular Ca2+ is influenced by mitogenic factors which control the entry and progression of the cell cycle; this is a strong indication for a role of Ca2+ in the control of the cycle, but surprisingly, the possibility of such a role has only been paid scant attention in the literature. Substantial progress has nevertheless been made in recent years in relating Ca2+ and the principal decoder of its information, calmodulin, to the modulation of various cycle steps. The aim of this review is to critically discuss the evidence for a role of Ca2+ in the cell cycle and to discuss Ca2+-dependent pathways regulating cell growth and differentiation. [ABSTRACT FROM AUTHOR]

Published
2005
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26. Ca2+ signalling and membrane current activated by cADPr in starfish oocytes.

Author

Moccia, F., Nusco, G. A., Lim, D., Ercolano, E., Gragnaniello, G., Brown, E. R., and Santella, L.

Subjects
STARFISHES, INVERTEBRATES, ADENOSINE diphosphate, RIBOSE, VOLTAGE-clamp techniques (Electrophysiology), ELECTROPHYSIOLOGY techniques
Abstract

Cyclic ADP-ribose (cADPr) is a second messenger that regulates intracellular free [Ca2+] ([Ca2+]i) in a variety of cell types, including immature oocytes from the starfish Astropecten auranciacus. In this study, we employed confocal laser scanning microscopy and voltage clamp techniques to investigate the source of the cADPr-elicited Ca2+ wave originating from the cortical Ca2+ patches we have described previously. The Ca2+ swing was accompanied by a membrane current with a reversal potential of ≈+20 mV. Decreasing external Na+ almost abolished the current without affecting the Ca2+ response. Removal of extracellular Ca2+ altered neither the Ca2+ transient nor the ionic current, nor did the holding potential exert any effect on the Ca2+ wave. Both the Ca2+ response and the membrane current were abolished when BAPTA, ruthenium red or 8-NH2-cADPr were preinjected into the oocytes, while perfusion with ADPr did not elicit any [Ca2+]i increase or ionic current. However, elevating [Ca2+]i by uncaging Ca2+ from nitrophenyl- (NP-EGTA) or by photoliberating inositol 1,4,5-trisphosphate (InsP3) induced an ionic current with biophysical properties similar to that elicited by cADPr. These results suggest that cADPr activates a Ca2+ wave by releasing Ca2+ from intracellular ryanodine receptors and that the rise in [Ca2+]i triggers a non-selective monovalent cation current that does not seem to contribute to the global Ca2+ elevation. [ABSTRACT FROM AUTHOR]

Published
2003
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27. Diapause embryos in the neustonic copepod Anomalocera patersoni.

Author

Ianora, A. and Santella, L.

Subjects
DIAPAUSE, EMBRYOS, EMBRYOLOGY, CELL membranes, BIOLOGICAL membranes
Abstract

The neustonic copepod Anomalocera patersoni Templeton, collected from the Gulf of Naples from January to May 1988, laid subitaneous and diapause eggs that were of equal size and dark and smooth in appearance. In January and February, most eggs were subitaneous and hatched within 2 to 3 d at room temperature. Conspicuous numbers of diapause eggs were first obtained in February when several clutches contained a second egg type which did not hatch in a subitaneous manner. By March and April, most clutches contained only diapause eggs. Transmission electron microscope studies of subitaneous and diapause eggs revealed striking morphological differences. Subitaneous eggs had a thin vitelline coat covering the plasma membrane, whereas diapause 'eggs' were enveloped by a complex four-layer structure which is assembled after spawning and which probably serves as a protective shell during dormancy. No major morphological differences were discernible in the oogenic cycle of females spawning either of the two egg types. Diapause eggs were shown to be embryos in early stages of development, and segmentation of these embryos was arrested for the entire 6-mo period of investigation. Diapause eggs hatched after 7 mo of dormancy. [ABSTRACT FROM AUTHOR]

Published
1991
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29. Nicotinic acid adenine dinucleotide phosphate-induced Ca(2+) release. Interactions among distinct Ca(2+) mobilizing mechanisms in starfish oocytes.

Author

Santella, L, Kyozuka, K, Genazzani, A A, De Riso, L, and Carafoli, E

Abstract

An intracellular mechanism activated by nicotinic acid adenine dinucleotide phosphate (NAADP(+)) contributes to intracellular Ca(2+) release alongside inositol 1,4,5-trisphosphate (Ins-P(3)) and ryanodine receptors. The NAADP(+)-sensitive mechanism has been shown to be operative in sea urchin eggs, ascidian eggs, and pancreatic acinar cells. Furthermore, most mammalian cell types can synthesize NAADP(+), with nicotinic acid and NADP(+) as precursors. In this contribution, NAADP(+)-induced Ca(2+) release has been investigated in starfish oocytes. Uncaging of injected NAADP(+) induced Ca(2+) mobilization in both immature oocytes and in oocytes matured by the hormone 1-methyladenine (1-MA). The role of extracellular Ca(2+) in NAADP(+)-induced Ca(2+) mobilization, which was minor in immature oocytes, was instead essential in mature oocytes. Thus, the NAADP(+)-sensitive Ca(2+) pool, which is known to be distinct from those sensitive to inositol 1,4,5-trisphosphate or cyclic ADPribose, apparently migrated closer to (or became part of) the plasma membrane during the maturation process. Inhibition of both Ins-P(3) and ryanodine receptors, but not of either alone, substantially inhibited NAADP(+)-induced Ca(2+) mobilization in both immature and mature oocytes. The data also suggest that NAADP(+)-induced Ca(2+) mobilization acted as a trigger for Ca(2+) release via Ins-P(3) and ryanodine receptors.

Published
2000

30. Is the human oocyte plasma membrane polarized?

Author

Santella, L, Alikani, M, Talansky, B E, Cohen, J, and Dale, B

Abstract

Using scanning electron microscopy, we have shown that the plasma membrane of the human metaphase II oocyte is organized in evenly spaced, short microvilli of 1-3 microns in length. In contrast to other mammals studied to date, there is no microvillus-free area overlying the metaphase spindle and there were no other indications of polarization at this level of organization. Functional polarity of the plasma membrane, studied using localized microsurgery of the zona pellucida followed by insemination, suggests that sperm fusion and entry in the human may occur anywhere over the oocyte surface. Aged oocytes and those exposed to acidic Tyrode's solution had surfaces which were not homogeneously covered by microvilli. Oocytes exposed to a sucrose solution and subzonally injected with spermatozoa showed evidence of partial cortical granule exocytosis.

Published
1992
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31. Rapid important paper Messenger RNA in squid axoplasm

Author

Giuditta A, Tim Hunt, and Santella L

Abstract

Using a translation assay we have shown that the axoplasm of the squid giant axon contains significant amounts of mRNA coding for a heterogeneous group of prot sets of proteins specified by glial and neuronal perikaryal mRNA. Messenger RNA is associated with the "microsomal" fraction of the axoplasm. The possible involvement of axoplasmic mRNA in protein synthesis remains to be ascertained. It is known that axoplasmic proteins are synthesized by the isolated giant axon, presumably by the surrounding glia cells.

Published
1986

34. Tumbling-mill steel media abrasion wear test development.

Author

Radziszewski P., Chenje T., Santella L., Sciannamblo A., Varadi R., Radziszewski P., Chenje T., Santella L., Sciannamblo A., and Varadi R.

Abstract

This work investigated abrasive friction and wear of steel media as a function of the energies/forces acting in abrasion in a given mill. A test was developed based on the ASTM G65 abrasive wheel test, with Ottawa foundry sand as the abrasive medium and the steels tested 1018 and 1045., This work investigated abrasive friction and wear of steel media as a function of the energies/forces acting in abrasion in a given mill. A test was developed based on the ASTM G65 abrasive wheel test, with Ottawa foundry sand as the abrasive medium and the steels tested 1018 and 1045.

39. Oxygen supersaturation mitigates the impact of the regime of contaminated sediment reworking on sea urchin fertilization process

Author

Jong Tai Chun, Roberto Danovaro, Iacopo Bertocci, Davide Caramiello, Nunzia Limatola, Marco Munari, Luigia Santella, Luigi Musco, Limatola, N., Bertocci, I., Chun, J. T., Musco, L., Munari, M., Caramiello, D., Danovaro, R., and Santella, L.

Subjects
0106 biological sciences, Sea urchin, Hydrocarbon, Climate, Bagnoli-Coroglio brownfield, Aquatic Science, Oceanography, 010603 evolutionary biology, 01 natural sciences, Paracentrotus lividus, Fertilization, Heavy metals, Hydrocarbons, Sediment pollution, Calcium, Egg cortex, Oxygenation, Environmental restoration, biology.animal, Animals, Seawater, 14. Life underwater, Pollutant, Primary producers, biology, Ecology, 010604 marine biology & hydrobiology, Sediment, Biota, General Medicine, 15. Life on land, biology.organism_classification, Pollution, 6. Clean water, Oxygen, Heavy metal, Italy, Disturbance (ecology), 13. Climate action, Sea Urchins, Paracentrotus, Environmental science, Environmental Pollutants
Abstract

Dismissed industrial plants with chronic environmental contamination globally affect all levels of biological organization in concert with other natural and anthropogenic perturbations. Assessing the impact of such perturbations and finding effective ways to mitigate them have clear ecological and societal implications. Through indoor manipulative experiments, we assessed here the effects of the temporal regime of reworking of contaminated sediment from the Bagnoli-Coroglio brownfield (Tyrrhenian Sea, Italy) on the fertilization process in Paracentrotus lividus. Adult sea urchins were kept for one month in tanks containing contaminated sediment that was re-suspended according to two temporal patterns of water turbulence differing in the time intervals between consecutive events of agitation (mimicking the storms naturally occurring in the study area) in seawater with natural vs. supersaturated oxygenation levels. At the end of the treatment, gametes were collected and used to test the hypothesis that the regime of contaminated sediment reworking negatively, but reversibly, affects morphological and physiological traits of the fertilized eggs. We found that aggregated events of sediment re-suspension had profound negative effects on gamete interactions and Ca2+ signaling at fertilization. The same experimental condition also inflicted marked ultrastructural changes in eggs. Importantly, however, such detrimental effects were inhibited by increased oxygenation. By contrast, the regime of sediment re-working with a longer interval between consecutive turbulent events had only marginal effects. Thus, the current and predicted changes of climate-related disturbance appear to modulate the biological effects of chronic contamination in post-industrial areas, suggesting that environmental rehabilitation via restoration of habitat-forming primary producers such as seagrasses or algal canopies could alleviate the pollutants' effects on resident biota.

Published
2020

40. Tight junctions and cavitation in the human pre-embryo

Author

Roberto Gualtieri, Luigia Santella, Brian Dale, Gualtieri, Roberto, Santella, L, and Dale, B.

Subjects
Tight junction, Embryogenesis, Cell Biology, Vacuole, Anatomy, Biology, Microfilament, Cytoplasmic Granules, Cell junction, Morula, Cell biology, Microscopy, Electron, Blastocyst, Intercellular Junctions, embryonic structures, Vacuoles, Genetics, Extracellular, Ultrastructure, Humans, Lysosomes, Intracellular, Developmental Biology
Abstract

In the human morula, tight junctions are found between all cell pairs, at all levels of cellular apposition, associated with underlying masses of microfilaments. In cavitating morula, lanthanum tracer gained access to the intracellular spaces, except at the intersections with nascent extracellular cavities, marking the first assembly of zonulae occludentes. Presumptive trophectoderm cells contained vacuoles and larger cavities often associated with secondary lysosome-like bodies. Since the vacuoles and intracellular and extracellular cavities contain electron-dense polygranules of about 23 nm diameter, they may have common origins. In trophectoderm cells of the early blastocytes, the large intracellular vacuoles and cavities were absent, and the zonulae occludentes were located apically. Mechanisms for nascent blastocoele formation are discussed.

Published
1992

41. Intercellular communication in the early human embryo

Author

Luigia Santella, Elisabetta Tosti, Riccardo Talevi, Kay Elder, Roberto Gualtieri, Brian Dale, Dale, B, Gualtieri, Roberto, Talevi, Riccardo, Tosti, E, Santella, L, and Elder, K.

Subjects
Blastomeres, Embryonic Development, Cell Communication, Biology, Cell junction, Morula, chemistry.chemical_compound, Embryonic and Fetal Development, Cell–cell interaction, Pregnancy, Genetics, medicine, Humans, Blastocyst, Cells, Cultured, Lucifer yellow, Tight junction, Gap junction, Embryo culture, Embryo, Cell Biology, Anatomy, Desmosomes, Isoquinolines, Cell biology, Microscopy, Electron, medicine.anatomical_structure, Intercellular Junctions, chemistry, embryonic structures, Female, Developmental Biology, Signal Transduction
Abstract

A preliminary study on intercecullar communicative devices in the early human embryo has been made using dye-coupling techniques and electron microscopy (EM). Lucifer yellow injected into single blastomeres of embryos at the 4-cell stage up to the late morula stage did not spread to neighbouring cells, indicating that gap junctions and cytoplasmic bridges are not significant pathways for information transfer. Dye spread was first observed in the blastocyst stage, where trophectoderm cells and inner mass cells were shown to be in communication through gap junctions. Studies at the EM level confirmed this finding. Tight junctions and desmosome-like structures, apparent from the 6-cell stage onward, were located both peripherally and centrally and were initially nonzonular. The role of intercellular devices in the primary differentiation of the human embryo is discussed.

Published
1991

42. The Effect of Synthetic Polyamine BPA-C8 on the Fertilization Process of Intact and Denuded Sea Urchin Eggs.

Author

Limatola N, Chun JT, Schmitt JL, Lehn JM, and Santella L

Subjects
Animals, Male, Polyamines metabolism, Polyamines pharmacology, Female, Spermatozoa metabolism, Spermatozoa drug effects, Calcium Signaling drug effects, Sperm-Ovum Interactions drug effects, Calcium metabolism, Fertilization drug effects, Sea Urchins drug effects, Sea Urchins metabolism, Ovum metabolism, Ovum drug effects
Abstract

Sea urchin eggs are covered with layers of extracellular matrix, namely, the vitelline layer (VL) and jelly coat (JC). It has been shown that sea urchin eggs' JC components serve as chemoattractants or ligands for the receptor on the fertilizing sperm to promote the acrosome reaction. Moreover, the egg's VL provides receptors for conspecific sperm to bind, and, to date, at least two sperm receptors have been identified on the surface of sea urchin eggs. Interestingly, however, according to our previous work, denuded sea urchin eggs devoid of the JC and VL do not fail to become fertilized by sperm. Instead, they are bound and penetratedby multiple sperm, raising the possibility that an alternative pathway independent of the VL-residing sperm receptor may be at work. In this research, we studied the roles of the JC and VL using intact and denuded eggs and the synthetic polyamine BPA-C8. BPA-C8 is known to bind to the negatively charged macromolecular complexes in the cells, such as the JC, VL, and the plasma membrane of echinoderm eggs, as well as to the actin filaments in fibroblasts. Our results showed that, when added to seawater, BPA-C8 significantly repressed the Ca 2+ wave in the intact P. lividus eggs at fertilization. In eggs deprived of the VL and JC, BPA-C8 binds to the plasma membrane and increases fibrous structures connecting microvilli, thereby allowing the denuded eggs to revert towards monospermy at fertilization. However, the reduced Ca 2+ signal in denuded eggs was nullified compared to the intact eggs because removing the JC and VL already decreased the Ca 2+ wave. BPA-C8 does not cross the VL and the cell membrane of unfertilized sea urchin eggs to diffuse into the cytoplasm at variance with the fibroblasts. Indeed, the jasplakinolide-induced polymerization of subplasmalemmal actin filaments was inhibited in the eggs microinjected with BPA-C8, but not in the ones bath-incubated with the same dose of BPA-C8.

Published
2024
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43. Application of Raman spectroscopy to the evaluation of F-actin changes in sea urchin eggs at fertilization.

Author

Mangini M, Limatola N, Ferrara MA, Coppola G, Chun JT, De Luca AC, and Santella L

Subjects
Animals, Male, Semen, Actin Cytoskeleton metabolism, Fertilization physiology, Sea Urchins metabolism, Ovum metabolism, Actins metabolism, Spectrum Analysis, Raman
Abstract

The actin filaments on the surface of echinoderm oocytes and eggs readily undergo massive reorganization during meiotic maturation and fertilization. In sea urchin eggs, the actin cytoskeletal response to the fertilizing sperm is fast enough to accompany Ca 2+ signals and to guide sperm's entry into the egg. Although recent work using live cell imaging technology confirmed changes in the actin polymerization status in fertilized eggs, as was previously shown using light and electron microscopy, it failed to provide experimental evidence of F-actin depolymerization a few seconds after insemination, which is concurrent with the sperm-induced Ca 2+ release. In the present study, we applied Raman microspectroscopy to tackle this issue by examining the spectral profiles of the egg's subplasmalemmal regions before and after treating the eggs with actin drugs or fertilizing sperm. At both early (15 s) and late (15 min) time points after fertilization, specific peak shifts in the Raman spectra revealed change in the actin structure, and Raman imaging detected the cytoskeletal changes corresponding to the F-actin reorganization visualized with LifeAct-GFP in confocal microscopy. Our observation suggests that the application of Raman spectroscopy, which does not require microinjection of fluorescent probes and exogenous gene expression, may serve as an alternative or even advantageous method in disclosing rapid subtle changes in the subplasmalemmal actin cytoskeleton that are difficult to resolve.

Published
2024
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44. Dithiothreitol Affects the Fertilization Response in Immature and Maturing Starfish Oocytes.

Author

Limatola N, Chun JT, Chiba K, and Santella L

Subjects
Animals, Female, Male, Dithiothreitol pharmacology, Dithiothreitol metabolism, Semen metabolism, Oocytes metabolism, Fertilization, Starfish, Actins metabolism
Abstract

Immature starfish oocytes isolated from the ovary are susceptible to polyspermy due to the structural organization of the vitelline layer covering the oocyte plasma membrane, as well as the distribution and biochemical properties of the actin cytoskeleton of the oocyte cortex. After the resumption of the meiotic cycle of the oocyte triggered by the hormone 1-methyladenine, the maturing oocyte reaches fertilizable conditions to be stimulated by only one sperm with a normal Ca 2+ response and cortical reaction. This cytoplasmic ripening of the oocyte, resulting in normal fertilization and development, is due to the remodeling of the cortical actin cytoskeleton and germinal vesicle breakdown (GVBD). Since disulfide-reducing agents such as dithiothreitol (DTT) are known to induce the maturation and GVBD of oocytes in many species of starfish, we analyzed the pattern of the fertilization response displayed by Astropecten aranciacus oocytes pre-exposed to DTT with or without 1-MA stimulation. Short treatment of A. aranciacus immature oocytes with DTT reduced the rate of polyspermic fertilization and altered the sperm-induced Ca 2+ response by changing the morphology of microvilli, cortical granules, and biochemical properties of the cortical F-actin. At variance with 1-MA, the DTT treatment of immature starfish oocytes for 70 min did not induce GVBD. On the other hand, the DTT treatment caused an alteration in microvilli morphology and a drastic depolymerization of the cortical F-actin, which impaired the sperm-induced Ca 2+ response at fertilization and the subsequent embryonic development.

Published
2023
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45. Triticum vulgare Extract and Polyhexanide (Fitostimoline ® Hydrogel/Fitostimoline ® Plus Gauze) versus Saline Gauze Dressing in Patients with Diabetic Foot Ulcers: Results of a Randomized Controlled Trial.

Author

Della Pepa G, Lombardi G, Gianfrancesco S, Piccolo R, Chirico G, Pellegrino M, Santella L, Tecce N, Volpicelli A, Sollo E, Bozzetto L, Masulli M, Riccardi G, Rivellese AA, and Saldalamacchia G

Abstract

Background: The use of dressings is an essential component of the standard of care for diabetic foot ulcers (DFUs); however, despite the wide variety of dressings available, there is a lack of evidence from head-to-head randomized controlled trials. We evaluated the efficacy and safety of Triticum vulgare extract and polyhexanide (Fitostimoline ® hydrogel/Fitostimoline ® Plus gauze) versus saline gauze dressings in patients with DFUs., Methods: This study involved a monocentric, two-arm, open-label, controlled trial in patients with DFUs (Grades I or II, Stage A or C, based on the Texas classification) randomized to 12 weeks of dressing with Fitostimoline ® hydrogel/Fitostimoline ® Plus gauze or saline gauze. The number of patients with complete healing, the reduction in DFU size, and the presence of local signs and symptoms of the wound and perilesional skin were evaluated every two weeks and at the end of treatment., Results: A total of 40 adult patients were recruited (20 patients in each treatment group). The proportion of patients with complete healing was similar between the two groups (61% vs. 74%, p = 0.495, Fitostimoline ® hydrogel/Fitostimoline ® Plus gauze vs. saline gauze, respectively), without significant differences, as well as the reduction in DFU size. A significant improvement in local signs and symptoms of the wound and signs of perilesional skin in the Fitostimoline ® hydrogel/Fitostimoline ® Plus gauze compared with the saline gauze group was observed., Conclusions: In a clinical setting, the use of Fitostimoline ® hydrogel/Fitostimoline ® Plus gauze dressing in patients with DFUs significantly improves signs and symptoms of the wound and signs of perilesional skin compared with saline gauze dressing with a similar efficacy in terms of wound healing.

Published
2023
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46. The Effect of Acidic and Alkaline Seawater on the F-Actin-Dependent Ca 2+ Signals Following Insemination of Immature Starfish Oocytes and Mature Eggs.

Author

Limatola N, Chun JT, Schneider SC, Schmitt JL, Lehn JM, and Santella L

Subjects
Animals, Male, Calcium Signaling physiology, Semen metabolism, Actin Cytoskeleton metabolism, Oocytes metabolism, Meiosis, Hormones metabolism, Insemination, Actins metabolism, Starfish
Abstract

In starfish, the addition of the hormone 1-methyladenine (1-MA) to immature oocytes (germinal vesicle, GV-stage) arrested at the prophase of the first meiotic division induces meiosis resumption (maturation), which makes the mature eggs able to respond to the sperm with a normal fertilization response. The optimal fertilizability achieved during the maturation process results from the exquisite structural reorganization of the actin cytoskeleton in the cortex and cytoplasm induced by the maturing hormone. In this report, we have investigated the influence of acidic and alkaline seawater on the structure of the cortical F-actin network of immature oocytes of the starfish ( Astropecten aranciacus ) and its dynamic changes upon insemination. The results have shown that the altered seawater pH strongly affected the sperm-induced Ca 2+ response and the polyspermy rate. When immature starfish oocytes were stimulated with 1-MA in acidic or alkaline seawater, the maturation process displayed a strong dependency on pH in terms of the dynamic structural changes of the cortical F-actin. The resulting alteration of the actin cytoskeleton, in turn, affected the pattern of Ca 2+ signals at fertilization and sperm penetration.

Published
2023
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48. Species-Specific Gamete Interaction during Sea Urchin Fertilization: Roles of the Egg Jelly and Vitelline Layer.

Author

Limatola N, Chun JT, and Santella L

Subjects
Animals, Fertilization physiology, Male, Ovum, Sea Urchins, Sperm-Ovum Interactions physiology, Actins, Semen
Abstract

In sea urchins, the sequence of the cellular and molecular events characterizing the fertilization process has been intensively studied. We have learned that to activate the egg, the fertilizing sperm must undergo morphological modifications (the acrosome reaction, AR) upon reaching the outer gelatinous layer enveloping the egg (egg jelly), which triggers the polymerization of F-actin on the sperm head to form the acrosomal process. The AR exposes bindin, an adhesive sperm protein essential for the species-specific interaction with the cognate receptor on the egg vitelline layer. To investigate the specific roles of the egg jelly and vitelline layer at fertilization of sea urchin eggs, Paracentrotus lividus eggs were incubated in acidic seawater, which removes the egg jelly, i.e., experimental conditions that should prevent the occurrence of the AR, and inseminated in the same medium. At variance with the prevailing view, our results have shown that these dejellied P. lividus eggs can still interact with sperm in acidic seawater, albeit with altered fertilization responses. In particular, the eggs deprived of the vitelline layer reacted with multiple sperm but with altered Ca 2+ signals. The results have provided experimental evidence that the plasma membrane, and not the vitelline layer, is where the specific recognition between gametes occurs. The vitelline layer works in unfertilized eggs to prevent polyspermy.

Published
2022
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49. Hexagonal Voronoi pattern detected in the microstructural design of the echinoid skeleton.

Author

Perricone V, Grun TB, Rendina F, Marmo F, Candia Carnevali MD, Kowalewski M, Facchini A, De Stefano M, Santella L, Langella C, and Micheletti A

Subjects
Animals, Skeleton, Spine, Stress, Mechanical, Paracentrotus
Abstract

Repeated polygonal patterns are pervasive in natural forms and structures. These patterns provide inherent structural stability while optimizing strength-per-weight and minimizing construction costs. In echinoids (sea urchins), a visible regularity can be found in the endoskeleton, consisting of a lightweight and resistant micro-trabecular meshwork (stereom). This foam-like structure follows an intrinsic geometrical pattern that has never been investigated. This study aims to analyse and describe it by focusing on the boss of tubercles-spine attachment sites subject to strong mechanical stresses-in the common sea urchin Paracentrotus lividus . The boss microstructure was identified as a Voronoi construction characterized by 82% concordance to the computed Voronoi models, a prevalence of hexagonal polygons, and a regularly organized seed distribution. This pattern is interpreted as an evolutionary solution for the construction of the echinoid skeleton using a lightweight microstructural design that optimizes the trabecular arrangement, maximizes the structural strength and minimizes the metabolic costs of secreting calcitic stereom. Hence, this identification is particularly valuable to improve the understanding of the mechanical function of the stereom as well as to effectively model and reconstruct similar structures in view of future applications in biomimetic technologies and designs.

Published
2022
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50. Regulation of the Actin Cytoskeleton-Linked Ca 2+ Signaling by Intracellular pH in Fertilized Eggs of Sea Urchin.

Author

Limatola N, Chun JT, and Santella L

Subjects
Actin Cytoskeleton physiology, Animals, Hydrogen-Ion Concentration, Male, Sea Urchins, Ammonia, Zygote physiology
Abstract

In sea urchin, the immediate contact of the acrosome-reacted sperm with the egg surface triggers a series of structural and ionic changes in the egg cortex. Within one minute after sperm fuses with the egg plasma membrane, the cell membrane potential changes with the concurrent increases in intracellular Ca 2+ levels. The consequent exocytosis of the cortical granules induces separation of the vitelline layer from the egg plasma membrane. While these cortical changes are presumed to prevent the fusion of additional sperm, the subsequent late phase (between 1 and 4 min after fertilization) is characterized by reorganization of the egg cortex and microvilli (elongation) and by the metabolic shift to activate de novo protein and DNA syntheses. The latter biosynthetic events are crucial for embryonic development. Previous studies suggested that the early phase of fertilization was not a prerequisite for these changes in the second phase since the increase in the intracellular pH induced by the exposure of unfertilized sea urchin eggs to ammonia seawater could start metabolic egg activation in the absence of the cortical granule exocytosis. In the present study, we have demonstrated that the incubation of unfertilized eggs in ammonia seawater induced considerable elongations of microvilli (containing actin filaments) as a consequence of the intracellular pH increase, which increased the egg's receptivity to sperm and made the eggs polyspermic at fertilization despite the elevation of the fertilization envelope (FE). These eggs also displayed compromised Ca 2+ signals at fertilization, as the amplitude of the cortical flash was significantly reduced and the elevated intracellular Ca 2+ level declined much faster. These results have also highlighted the importance of the increased internal pH in regulating Ca 2+ signaling and the microvillar actin cytoskeleton during the late phase of the fertilization process.

Published
2022
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