176 research outputs found
Role of miR-200c in myogenic differentiation impairment via p66Shc: implication in skeletal muscle regeneration of dystrophic mdx mice
Duchenne muscular dystrophy (DMD) is a genetic disease associated with mutations of Dystrophin gene that regulate myofiber integrity and muscle degeneration, characterized by oxidative stress increase. We previously published that reactive oxygen species (ROS) induce miR-200c that is responsible for apoptosis and senescence. Moreover, we demonstrated that miR-200c increases ROS production and phosphorylates p66Shc in Ser-36. p66Shc plays an important role in muscle differentiation; we previously showed that p66Shc(-/-) muscle satellite cells display lower oxidative stress levels and higher proliferation rate and differentiated faster than wild-type (wt) cells. Moreover, myogenic conversion, induced by MyoD overexpression, is more efficient in p66Shc(-/-) fibroblasts compared to wt cells. Herein, we report that miR-200c overexpression in cultured myoblasts impairs skeletal muscle differentiation. Further, its overexpression in differentiated myotubes decreases differentiation indexes. Moreover, anti-miR-200c treatment ameliorates myogenic differentiation. In keeping, we found that miR-200c and p66Shc Ser-36 phosphorylation increase in mdx muscles. In conclusion, miR-200c inhibits muscle differentiation, whereas its inhibition ameliorates differentiation and its expression levels are increased in mdx mice and in differentiated human myoblasts of DMD. Therefore, miR-200c might be responsible for muscle wasting and myotube loss, most probably via a p66Shc-dependent mechanism in a pathological disease such as DMD
Gender matter in isotretinoin therapy for acne vulgaris? A retrospective study
Introduction: Gender differences have been recently highlighted for several aspects of acne vulgaris such as epidemiology, pathogenesis, clinical course, quality of life and treatment outcome. In particular a shorter but more severe clinical course has been reported in males than in females; nevertheless, usually men have their quality of life less affected.
Aim: To determine if the response and the adverse events to 1 cycle of oral isotretinoin therapy can be influenced by gender.
Methods: A retrospective study was conducted on consecutive patients affected by acne vulgaris and treated with oral isotretinoin. Global acne grading system (GAGS), acne-related quality of life (AQoL) and isotretinoin-related adverse events were considered as outcome measures and were evaluated before (T0), every month during administration and 4 weeks after the withdrawal (T1) of oral isotretinoin therapy. Mann-Whitney U test and Wilcoxon signed-rank test were used for quantitative parameters and Fisher exact test for qualitative ones.
Results: Forty-nine acneic patients were retrospectively selected (33 males 67.3% and 16 females -32.7%; median age: 19 years). Patients had received a median dosage of isotretinoin of 0.4 mg/kg/die for a median period of 5 months; no differences in outcome measures among genders were reported.
Limitations: The study is retrospective and the sample is small and not homogenously distributed among genders, as males are double in number than females.
Conclusions: In our study population gender didn't influence neither the clinical and the quality of life outcome measures nor the occurrence of adverse events to oral isotretinoin therapy for acne
Factors influencing response to ingenol mebutate therapy for actinic keratosis of face and scalp
AIM
To determine factors independently influencing response to ingenol mebutate therapy and assess efficacy on clinical setting of non-hypertrophic non-hyperkeratotic actinic keratosis (AK).
METHODS
Consecutive patients affected by non-hypertrophic non-hyperkeratotic AKs of the face or scalp were enrolled to receive ingenol mebutate 0.015% gel on a selected skin area of 25 cm2 for 3 consecutive days. Local skin reactions were calculated at each follow up visit using a validated composite score. Efficacy was evaluated by the comparison of clinical and dermoscopic pictures before the treatment and at day 57, and classified as complete, partial and poor response.
RESULTS
A number of 130 patients were enrolled, of which 101 (77.7%) were treated on the face, while 29 (22.3%) on the scalp. The great majority of our study population (n = 119, 91.5%) reached at least a 75% clearance of AKs and, in particular, 58 patients (44.6%) achieved a complete response while 61 (46.9%) a partial one. Logistic backward multivariate analysis showed that facial localization, level of local skin reaction (LSR) at day 2, the highest LSR values and level of crusts at day 8 were factors independently associated with the achievement of a complete response.
CONCLUSION
Ingenol mebutate 0.015% gel, when properly applied, is more effective on the face than on the scalp and efficacy is directly associated to LSR score
Simulated microgravity triggers epithelial mesenchymal transition in human keratinocytes
The microgravitational environment is known to affect the cellular behaviour inducing modulation of gene expression and enzymatic activities, epigenetic modifications and alterations of the structural organization. Simulated microgravity, obtained in the laboratory setting through the use of a Random Positioning Machine (RPM), represents a well recognized and useful tool for the experimental studies of the cellular adaptations and molecular changes in response to weightlessness. Short exposure of cultured human keratinocytes to the RPM microgravity influences the cellular circadian clock oscillation. Therefore, here we searched for changes on the regenerative ability and response to tissue damage of human epidermal cells through the analysis of the effects of the simulated microgravity on the re-epithelialization phase of the repair and wound healing process. Combining morphological, biochemical and molecular approaches, we found that the simulated microgravity exposure of human keratinocytes promotes a migratory behavior and triggers the epithelial-mesenchymal transition (EMT) through expression of the typical EMT transcription factors and markers, such as Snail1, Snail2 and ZEB2, metalloproteases, mesenchymal adhesion molecules and cytoskeletal components
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Preventing Persistence of HPV Infection with Natural Molecules
Human papillomavirus (HPV) infection is one the most common sexually transmitted infections worldwide. In most cases, the infection is temporary and asymptomatic; however, when persistent, it may lead to lesions that can evolve into cancer in both women and men. Nowadays, prophylactic vaccination is the primary preventive strategy for HPV infections, but vaccines do not cover all types of HPV strains. Scientific research has uncovered the beneficial role of some natural supplements in preventing persistent HPV infections or treating HPV-related lesions. We review the current insight into the roles of natural molecules in HPV infection with a special focus on epigallocatechin gallate (EGCG), folic acid, vitamin B12, and hyaluronic acid (HA). Specifically, EGCG from green tea extracts plays a critical role in suppressing HPV oncogenes and oncoproteins (E6/E7), which are responsible for HPV oncogenic activity and cancer development. Folic acid and vitamin B12 are essential vitamins for multiple functions in the body, and accumulating evidence suggests their importance in maintaining a high degree of methylation of the HPV genome, thus decreasing the likelihood of causing malignant lesions. HA, due to its re-epithelizing property, may prevent HPV virus entry in damaged mucosa and epithelia. Thereby, based on these premises, the combination of EGCG, folic acid, vitamin B12, and HA may be a very promising therapeutic approach to prevent HPV persistence
Microgravity Induces Transient EMT in Human Keratinocytes by Early Down-Regulation of E-Cadherin and Cell-Adhesion Remodeling
Abstract: Changes in cell–matrix and cell-to-cell adhesion patterns are dramatically fostered by
the microgravity exposure of living cells. The modification of adhesion properties could promote
the emergence of a migrating and invasive phenotype. We previously demonstrated that short
exposure to the simulated microgravity of human keratinocytes (HaCaT) promotes an early epithelial–
mesenchymal transition (EMT). Herein, we developed this investigation to verify if the cells maintain
the acquired invasive phenotype after an extended period of weightlessness exposure. We also
evaluated cells’ capability in recovering epithelial characteristics when seeded again into a normal
gravitational field after short microgravity exposure. We evaluated the ultra-structural junctional
features of HaCaT cells by Transmission Electron Microscopy and the distribution pattern of vinculin
and E-cadherin by confocal microscopy, observing a rearrangement in cell–cell and cell–matrix
interactions. These results are mirrored by data provided by migration and invasion biological assay.
Overall, our studies demonstrate that after extended periods of microgravity, HaCaT cells recover an
epithelial phenotype by re-establishing E-cadherin-based junctions and cytoskeleton remodeling,
both being instrumental in promoting a mesenchymal–epithelial transition (MET). Those findings
suggest that cytoskeletal changes noticed during the first weightlessness period have a transitory
character, given that they are later reversed and followed by adaptive modifications through which
cells miss the acquired mesenchymal phenotyp
Discontinuation of first-line bevacizumab in metastatic colorectal cancer: the BEAWARE Italian Observational Study
BEAWARE investigated the pattern of first-line bevacizumab early interruption in the Italian real-world setting of metastatic colorectal cancer
Moisture Damage in Ancient Masonry: A Multidisciplinary Approach for In Situ Diagnostics
San Nicola in Carcere, one of the minor basilicas in the historical center of Rome, was the location of a wide investigation campaign of the water-related deterioration causes, present in the lower sector of the apse and adjacent pillars, affected by water infiltrations, mould and salt efflorescence. The results obtained identify the presence of water content and related effects mainly on the sides of the apsidal wall. This work focuses on the use of five Non-Destructive Techniques (NDT) and intends to show the gains obtained by integrating widely interdisciplinary methods, namely the Infrared Thermography (IRT), the Unilateral Nuclear Magnetic Resonance (Unilateral NMR), the Acoustic Tomography (AT), the Acoustic Imaging (AI) and the Laser-Induced Fluorescence (LIF). All the techniques contribute to the rapid, non-invasive and early identification of the moisture distribution, while some of them (LIF and AI) also address the determination of some moisture effects. The integrated use of different techniques helps to take the multidisciplinary point of view necessary to formulate an effective restoration intervention based on a sound scientific rationale; nonetheless, it allows to experiment a holistic approach, verifying the potential of a wide range of NDTs available within the context of a restoration yard
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