C Cavallini scite author profile

BackgroundDevelopment of molecules chemically modifying the expression of crucial orchestrator(s) of stem cell commitment may have significant biomedical impact. We have recently developed hyaluronan mixed esters of butyric and retinoic acids (HBR), turning cardiovascular stem cell fate into a high-yield process. The HBR mechanism(s) remain still largely undefined.Methodology/Principal FindingsWe show that in both mouse embryonic stem (ES) cells and human mesenchymal stem cells from fetal membranes of term placenta (FMhMSCs), HBR differentially affected the patterning of Smad proteins, one of the major conductors of stem cell cardiogenesis. Real-time RT-PCR and Western blot analyses revealed that in both cell types HBR enhanced gene and protein expression of Smad1,3, and 4, while down-regulating Smad7. HBR acted at the transcriptional level, as shown by nuclear run-off experiments in isolated nuclei. Immunofluorescence analysis indicated that HBR increased the fluorescent staining for Smad1,3, and 4, confirming that the transcriptional action of HBR encompassed the upregulation of the encoded Smad proteins. Chromatin immune precipitation and transcriptional analyses showed that HBR increased the transcription of the cardiogenic gene Nkx-2.5 through Smad4 binding to its own consensus Smad site. Treatment of mouse ES cells and FMhMSCs with HBR led to the concomitant overexpression of both Smad4 and α-sarcomeric actinin. Smad4 silencing by the aid of lentiviral-mediated Smad4 shRNA confirmed a dominant role of Smad4 in HBR-induced cardiogenesis.Conclusions/SignificanceThe use of HBR may pave the way to novel combinatorial strategies of molecular and stem cell therapy based on fine tuning of targeted Smad transciption and signaling leading to a high-throughput of cardiogenesis without the needs of gene transfer technologies.

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Risk of intracranial haemorrhage with combined fibrinolytic and glycoprotein IIb/IIIa inhibitor therapy in acute myocardial infarction Dichotomous response as a function of age in the GUSTO V trial

Savonitto

Armstrong

Lincoff³

et al. 2003

European Heart Journal

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High concentration of C-type natriuretic peptide promotes VEGF-dependent vasculogenesis in the remodeled region of infarcted swine heart with preserved left ventricular ejection fraction

Cabiati

Martino

et al. 2013

International Journal of Cardiology

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Complex segregation analysis of obsessive compulsive and spectrum related disorders

Cavallini¹,

Macciardi

Pasquale

et al. 1995

Behavioural Pharmacology

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The use of physical energy for tissue healing

Ventura¹,

Bianchi²,

Cavallini³

et al. 2015

European Heart Journal Supplements

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Cell Responsiveness to Physical Energies: Paving the Way to Decipher a Morphogenetic Code

Tassinari¹,

Cavallini²,

Olivi³

et al. 2022

IJMS

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We discuss emerging views on the complexity of signals controlling the onset of biological shapes and functions, from the nanoarchitectonics arising from supramolecular interactions, to the cellular/multicellular tissue level, and up to the unfolding of complex anatomy. We highlight the fundamental role of physical forces in cellular decisions, stressing the intriguing similarities in early morphogenesis, tissue regeneration, and oncogenic drift. Compelling evidence is presented, showing that biological patterns are strongly embedded in the vibrational nature of the physical energies that permeate the entire universe. We describe biological dynamics as informational processes at which physics and chemistry converge, with nanomechanical motions, and electromagnetic waves, including light, forming an ensemble of vibrations, acting as a sort of control software for molecular patterning. Biomolecular recognition is approached within the establishment of coherent synchronizations among signaling players, whose physical nature can be equated to oscillators tending to the coherent synchronization of their vibrational modes. Cytoskeletal elements are now emerging as senders and receivers of physical signals, “shaping” biological identity from the cellular to the tissue/organ levels. We finally discuss the perspective of exploiting the diffusive features of physical energies to afford in situ stem/somatic cell reprogramming, and tissue regeneration, without stem cell transplantation.

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Antiarrhythmic efficacy of propafenone: Evaluation of effective plasma levels following single and multiple doses

Frabetti

Marchesini

Capucci

et al. 1986

Eur J Clin Pharmacol

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In 11 patients with stable premature ventricular beats, the kinetics of single (150 and 300 mg) and multiple (150 mg t.i.d. and 300 mg t.i.d.) oral doses of propafenone were studied with reference to arrhythmia suppression. During the acute phase detectable plasma levels of the drug were achieved only with the higher dose. In 8 out of 10 patients the antiarrhythmic effect was obtained with the 300 mg dose, which was found to predict responsiveness at steady-state. During the chronic phase, antiarrhythmic efficacy was obtained with the lower dose regimen (150 mg t.i.d.) in half of those patients. A wide range of effective plasma levels was observed. The previously suggested therapeutic range (0.5-2.0 micrograms/ml) was not adequate in predicting either antiarrhythmic activity or adverse effects. The results show the role of propafenone metabolites in determining total antiarrhythmic action.

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Unveiling the morphogenetic code: A new path at the intersection of physical energies and chemical signaling

Tassinari¹,

Cavallini²,

Olivi³

et al. 2021

WJSC

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In this editorial, we discuss the remarkable role of physical energies in the control of cell signaling networks and in the specification of the architectural plan of both somatic and stem cells. In particular, we focus on the biological relevance of bioelectricity in the pattern control that orchestrates both developmental and regenerative pathways. To this end, the narrative starts from the dawn of the first studies on animal electricity, reconsidering the pioneer work of Harold Saxton Burr in the light of the current achievements. We finally discuss the most recent evidence showing that bioelectric signaling is an essential component of the informational processes that control pattern specification during embryogenesis, regeneration, or even malignant transformation. We conclude that there is now mounting evidence for the existence of a Morphogenetic Code, and that deciphering this code may lead to unprecedented opportunities for the development of novel paradigms of cure in regenerative and precision medicine.

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C Cavallini

Hyaluronan Esters Drive Smad Gene Expression and Signaling Enhancing Cardiogenesis in Mouse Embryonic and Human Mesenchymal Stem Cells

Risk of intracranial haemorrhage with combined fibrinolytic and glycoprotein IIb/IIIa inhibitor therapy in acute myocardial infarction Dichotomous response as a function of age in the GUSTO V trial

High concentration of C-type natriuretic peptide promotes VEGF-dependent vasculogenesis in the remodeled region of infarcted swine heart with preserved left ventricular ejection fraction

Complex segregation analysis of obsessive compulsive and spectrum related disorders

The use of physical energy for tissue healing

Cell Responsiveness to Physical Energies: Paving the Way to Decipher a Morphogenetic Code

Antiarrhythmic efficacy of propafenone: Evaluation of effective plasma levels following single and multiple doses

Unveiling the morphogenetic code: A new path at the intersection of physical energies and chemical signaling

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