Your search keyword '"Capalbo C"' showing total 4 results

1. Numerical and experimental performance estimation for a ExoFing - 2 DOFs finger exoskeleton.

Author

Carbone, G, Ceccarelli, M, Capalbo, C. E., Caroleo, G, and Morales-Cruz, C

Subjects

*FINGERS, *TEST design, *COMPUTER simulation, *BIOELECTRONICS

Abstract

This paper presents a numerical and experimental validation of ExoFing, a two-degrees-of-freedom finger mechanism exoskeleton. The main functionalities of this device are investigated by focusing on its kinematic model and by computing its main operation characteristics via numerical simulations. Experimental tests are designed and carried out for validating both the engineering feasibility and effectiveness of the ExoFing system aiming at achieving a human index finger motion assistance with cost-oriented and user-friendly features. [ABSTRACT FROM AUTHOR]

Published

2022

2. The end of the beginning of personalized medicine.

Author

Natoli, G. and Capalbo, C.

Subjects

*LETTERS to the editor, *INDIVIDUALIZED medicine, *BIOMARKERS, *TARGETED drug delivery, *PUBLIC health, *DRUG patents, *RESPONSE rates

Published

2011

3. PCAF ubiquitin ligase activity inhibits Hedgehog/Gli1 signaling in p53-dependent response to genotoxic stress.

Author

Mazzà, D, Infante, P, Colicchia, V, Greco, A, Alfonsi, R, Siler, M, Antonucci, L, Po, A, De Smaele, E, Ferretti, E, Capalbo, C, Bellavia, D, Canettieri, G, Giannini, G, Screpanti, I, Gulino, A, and Di Marcotullio, L

Subjects

*HEDGEHOG signaling proteins, *UBIQUITIN ligases, *GENETIC toxicology, *CANCER, *MEDULLOBLASTOMA, *DNA damage

Abstract

The Hedgehog (Hh) signaling regulates tissue development, and its aberrant activation is a leading cause of malignancies, including medulloblastoma (Mb). Hh-dependent tumorigenesis often occurs in synergy with other mechanisms, such as loss of p53, the master regulator of the DNA damage response. To date, little is known about mechanisms connecting DNA-damaging events to morphogen-dependent processes. Here, we show that genotoxic stress triggers a cascade of signals, culminating with inhibition of the activity of Gli1, the final transcriptional effector of Hh signaling. This inhibition is dependent on the p53-mediated elevation of the acetyltransferase p300/CBP-associated factor (PCAF). Notably, we identify PCAF as a novel E3 ubiquitin ligase of Gli1. Indeed PCAF, but not a mutant with a deletion of its ubiquitination domain, represses Hh signaling in response to DNA damage by promoting Gli1 ubiquitination and its proteasome-dependent degradation. Restoring Gli1 levels rescues the growth arrest and apoptosis effect triggered by genotoxic drugs. Consistently, DNA-damaging agents fail to inhibit Gli1 activity in the absence of either p53 or PCAF. Finally, Mb samples from p53-null mice display low levels of PCAF and upregulation of Gli1 in vivo, suggesting PCAF as potential therapeutic target in Hh-dependent tumors. Together, our data define a mechanism of inactivation of a morphogenic signaling in response to genotoxic stress and unveil a p53/PCAF/Gli1 circuitry centered on PCAF that limits Gli1-enhanced mitogenic and prosurvival response. [ABSTRACT FROM AUTHOR]

Published

2013

4. The effect of oxo-component on the high-pressure behavior of amphiboles.

Author

COMODI, P., BALLARAN, T. BOFFA, ZANAZZI, P. F., CAPALBO, C., ZANETTI, A., and NAZZARENI, S.

Subjects

*AMPHIBOLES, *X-ray diffraction, *BASALT, *IGNEOUS rocks, *HYDROSTATICS, *CATIONS

Abstract

The role of the oxo-component on the compressibility of amphibole was studied by means of high-pressure in situ single-crystal X-ray diffraction on two natural kaersutite megacrysts (samples DL5 and FR12) from alkaline basalts. The oxo-component varies significantly (1.1 and 1.9 apfu in DL5 and FR12, respectively), whereas the cation composition is very similar, apart from the Fe3+/(Fe2++Fe3+), which is 0.33 in DL5 and ~1 in FR12. The larger oxo-component of FR12 is attributed to the Fe2+ + OH- = Fe3+ + O2- + ½H2 substitution. Unit-cell parameters were collected at different pressures up to about 8 GPa. Structural refinements of both samples were performed with data collected at different P up to 6 GPa. Fitting the P-V data to a third-order Birch Murnaghan EoS yielded the following parameters: K0 = 94(1) GPa, K' = 6.3(4), and V0 = 903.6(2) ų for FR12 and K0 = 91(2) GPa, K' = 6.2(4), and V0 = 914.1(2) ų for DL5. The axial moduli of the two amphibole samples were: K0a = 86(3) GPa, K'a = 7(1), and a0 = 9.815(2) Å; K0b = 115(3) GPa, K'b = 4.8(8), and b0 = 18.012(2) Å; K0c = 112(5) GPa, K"c = 7(1), and c0 = 5.300(1) Å for sample FR12 and K0a = 85(3) GPa, K'a = 5(1), and a0 = 9.8660(9) Å; K0b = 113(2), K'b = 4.4(6), and b0 = 18.0548(6) Å; K0c = 107(3) GPa, K'c = 7(1), and c0 = 5.3185(5) Å for sample DL5. This suggests that the compressibility of kaersutite decreases with increasing oxo-component. Structural refinements show that the polyhedral compressibility follows the order A = M4 > M2 > M3 > M1 for DL5 and A = M4 > M2 > M1 > M3 for FR12. The most evident geometrical effect induced by P is the decrease in the bending of the double tetrahedral chain, when adjacent I-beams are pushed against each other. This effect is largest for DL5, which has a larger concavity of the A site, (O7-O7' changes from 3.03 to 2.82 Å) compared to the one of FR12, (O7-O7' changes from 2.92 to 2.79 Å). This mechanism is confirmed by the evolution of T1-O7-T1 angle (from 135.4° to 132.5° in FR12 and from 136.6° to 132.2° in DL5). [ABSTRACT FROM AUTHOR]

Published

2010