Marzia Bedoni

Caseinphosphopeptide-induced calcium uptake in human intestinal cell lines HT-29 and Caco2 is correlated to cellular differentiation.

Caseinphosphopeptides (CPPs) are considered as mineral carriers because of their ability to bind and solubilize calcium ions, with the possible role, yet to be definitely assessed, of improving calcium absorption at the intestinal level. Previous works demonstrated that CPPs improve calcium uptake, with increasing intracellular calcium concentration, by human differentiated tumor HT-29 cells, and that this effect correlates with the supramolecular structure of CPPs in the presence of calcium ions. The aim of the present study was to establish whether the CPP effect on calcium uptake is specific for HT-29 cells and depends on the differentiated state of the cells. To this purpose, HT-29 and Caco2 cells, two models of intestinal cells, were differentiated following appropriate protocols, including treatment with 1,25-(OH)2 vitamin D3. The CPP-dependent intracellular calcium rises were monitored at the single-cell level through fura2-fluorescence assays, and cell differentiation was assessed by biochemical and morphological methods. Results clearly showed that the ability to take up extracellular calcium ions under CPP stimulation is exhibited by both HT-29 and Caco2 cells, but only upon cell differentiation. This evidence adds novel support to the notion that CPPs favour calcium absorption, thus possibly acting as cellular bio-modulators and carrying a nutraceutical potential.

Raman and SERS recognition of β-carotene and haemoglobin fingerprints in human whole blood

The present work reports on Raman and Surface Enhanced Raman Scattering (SERS) vibrational fingerprints of β-carotene and haemoglobin in fresh whole blood (i.e. right after blood test) with different laser excitations, i.e. visible (514 nm) and near-infrared (NIR, 785 nm). The use of colloidal silver nanoparticles significantly increases the Raman signal, thus providing a clear SERS spectrum of blood. The collected spectra have been examined and marker bands of β-carotene and of the haem prosthetic group of haemoglobin have been found. In particular, the fundamental features of β-carotene (514 nm excitation), blood proteins and haem molecules (785 nm excitation) were recognized and assigned. Moreover haemoglobin SERS signals can be identified and related with its oxygenation state (oxy-haemoglobin). The data reported show the prospects of Raman and SERS techniques to detect important bio-molecules in a whole blood sample with no pre-treatment.

Casein phosphopeptide promotion of calcium uptake in HT‐29 cells − relationship between biological activity and supramolecular structure

Casein phosphopeptides (CPPs) form aggregated complexes with calcium phosphate and induce Ca2+ influx into HT‐29 cells that have been shown to be differentiated in culture. The relationship between the aggregation of CPPs assessed by laser light scattering and their biological effect was studied using the CPPs β‐CN(1–25)4P and αs1‐CN(59–79)5P, the commercial mixture CPP DMV, the ‘cluster sequence’ pentapeptide, typical of CPPs, and dephosphorylated β‐CN(1–25)4P, [β‐CN(1–25)0P]. The biological effect was found to be: (a) maximal with β‐CN(1–25)4P and null with the ‘cluster sequence’; (b) independent of the presence of inorganic phosphate; and (c) maximal at 4 mmol·L−1 Ca2+. The aggregation of CPP had the following features: (a) rapid occurrence; (b) maximal aggregation by β‐CN(1–25)4P with aggregates of 60 nm hydrodynamic radius; (c) need for the concomitant presence of Ca2+ and CPP for optimal aggregation; (d) lower aggregation in Ca2+‐free Krebs/Ringer/Hepes; (e) formation of bigger aggregates (150 nm radius) with β‐CN(1–25)0P. With both β‐CN(1–25)4P and CPP DMV, the maximum biological activity and degree of aggregation were reached at 4 mmol·L−1 Ca2+.

Desmoglein 3 and keratin 10 expressions are reduced by chronic exposure to cigarette smoke in human keratinised oral mucosa explants

OBJECTIVE Oral mucosa is a physiological barrier against several exogenous stimuli, among which cigarette smoke represents a source of reactive oxidizing compounds. No morphological evidences exist on the smoke effects induced in the human oral epithelium. In this study we performed a preliminary light and transmission electron microscopy morphological evaluation focussing in particular on keratinocyte intercellular adhesion and terminal differentiation in chronic smokers. DESIGN Human biopsies were obtained from healthy young chronic smoker women (n=5) compared with a parallel group of non-smoker healthy volunteers (n=5), as the smoking habit among women is ever more spreading. Samples were processed for light and transmission electron microscopy. On paraffin sections Massons and Dane and Hermans histochemical staining were performed. Biomarker expressions of intercellular adhesion (desmoglein 3, Dsg3), terminal differentiation (keratin 10, K10 and keratin 14, K14), and basal membrane preservation (laminin) were investigated by immunofluorescence. RESULTS In both groups the epithelial structural integrity, homeostasis, and the basal membrane were comparable. Dsg3 and K10 expressions were affected in smokers with the former significantly reduced (p<0.05). Ultrastructural analysis showed hypertrophic keratinocytes in the upper spinous layer and morphologically preserved desmosomes throughout the epithelial compartment. CONCLUSIONS The reduction of Dsg3 and K10 expressions indicates that the overall process of keratinocyte terminal differentiation was altered. These preliminary results strongly suggest that Dsg3 and K10 can represent valuable immunomarkers to evaluate the tissue attempt to respond to an exogenous stress such as chronic cigarette smoke, but further samples need to be analysed.

Etanercept restores a differentiated keratinocyte phenotype in psoriatic human skin: a morphological study.

Tumor Necrosis Factor‐α (TNF‐α) plays a pivotal role in psoriasis, an immuno‐mediated and genetic skin disease. Anti‐TNF‐α inhibitors, such as etanercept, are widely used in clinical practice. By immunofluorescence, we investigated the expression of junctional transmembrane proteins in desmosomes (desmocollin‐1, Dsc1; desmoglein‐1, Dsg1), adherens junctions (E‐cadherin), tight junctions (occludin), biomarkers of keratinocyte differentiation (keratin‐10, K10; keratin‐14, K14; keratin‐16, K16; involucrin), epithelial proliferation and apoptosis in psoriatic skin before/after etanercept treatment (n = 5) and in control skin samples (n = 5). Occludin, K14, K16 and involucrin expressions were altered in psoriatic epidermis, while Dsc1, Dsg1, E‐cadherin and K10 localisations were comparable to controls. Etanercept promoted the restoration of the physiological condition as suggested by a more differentiated keratinocyte phenotype and a reduced epidermal proliferation rate.

Desmocollin 1 and desmoglein 1 expression in human epidermis and keratinizing oral mucosa: a comparative immunohistochemical and molecular study

Epidermis and keratinizing oral mucosa (KOM) are effective barriers against a wide spectrum of insults. The optimal form of protection provided by each epithelium is determined also by the molecular composition of desmosomes. Up to now, the expression of the “skin type” desmosomal cadherins, i.e. desmocollin 1 (Dsc1) and desmoglein 1 (Dsg1), was correlated with the morphological features of keratinocyte terminal differentiation in epidermis, but not in KOM. The aim of the present study was to investigate Dsc1 and Dsg1 expression in adult human KOM compared to epidermis. Biopsies of epidermis and KOM were obtained from young healthy adults (n=6) and simultaneously processed for immunofluorescence analysis, post-embedding immunogold electron microscopy (immunogold EM), and RT-PCR analysis. For molecular biology analysis, as a negative control, we considered human fibroblasts. By immunofluorescence and immunogold EM, Dsc1 labeling was not detected in any suprabasal layer of KOM, but it was present in the upper spinous/granular layers of epidermis. Immunofluorescence and transmission electron microscopy analysis showed that (i) Dsg1 expression was evident in the spinous, granular, and horny layer of the oral epithelium and (ii) Dsg1 immunoreactivity was always lower in desmosomes between oral keratinocytes than in all epidermal junctions. RT-PCR analysis confirmed that in KOM Dsc1 gene expression was undetectable. On the whole, these observations suggest a weakened adhesion in KOM, allowing oral keratinocytes to undergo a faster transition throughout the living layers of the epithelium. The intrinsic and specific regulation of the molecular composition of desmosomes can contribute in defining a specific keratinocyte phenotype in KOM and in epidermis.

Label-free imaging and identification of typical cells of acute myeloid leukaemia and myelodysplastic syndrome by Raman microspectroscopy

In clinical practice, the diagnosis and classification of acute myeloid leukaemia (AML) and myelodysplastic syndrome (MDS) start from the manual examination of stained smears of bone marrow (BM) and peripheral blood (PB) by using an optical microscope. This step is subjective and scarcely reproducible. Therefore, the development of subjective and potentially automatable methods for the recognition of typical AML/MDS cells is necessary. Here we have used Raman spectroscopy for distinguishing myeloblasts, promyelocytes, abnormal promyelocytes and erhytroblasts, which have to be counted for a correct diagnosis and morphological classification of AML and MDS. BM samples from patients affected by four different AML subtypes, mostly characterized by the presence of the four subpopulations selected for this study, were analyzed. First, each cell was scanned by acquiring 4096 spectra, thus obtaining Raman images which demonstrate an accurate description of morphological features characteristic of each subpopulation. Raman imaging coupled with hierarchical cluster analysis permitted the automatic discrimination and localization of the nucleus, the cytoplasm, myeloperoxidase containing granules and haemoglobin. Second, the averaged Raman fingerprint of each cell was analysed by multivariate analysis (principal component analysis and linear discriminant analysis) in order to study the typical vibrational features of each subpopulation and also for the automatic recognition of cells. The leave-one-out cross validation of a Raman-based classification model demonstrated the correct classification of myeloblasts, promyelocytes (normal/abnormal) and erhytroblasts with an accuracy of 100%. Normal and abnormal promyelocytes were distinguished with 95% accuracy. The overall classification accuracy considering the four subpopulations was 98%. This proof-of-concept study shows that Raman micro-spectroscopy could be a valid approach for developing label-free, objective and automatic methods for the morphological classification and counting of cells from AML/MDS patients, in substitution of the manual examination of BM and PB stained smears.

Early epidermal response after a single dose of γ-rays in organotypic culture of human breast skin

Background  Skin reaction is the most common side‐effect of radiation therapy. Radiation‐induced dermal fibrosis has been characterized histologically, but little is known about the epidermis overlying fibronecrotic lesions.

An in vitro model of human oral explants to study early effects of radiation mucositis

Mucositis is a frequent problem after irradiation of the oral mucosa. To study the early effects of irradiation on the desmosomal adhesion complex, explants of keratinized oral mucosa were exposed to a single dose of 2 Gy gamma irradiation. Biopsies were obtained from the upper dental arch of nine young healthy non-smoking women undergoing minor oral surgery. The biopsies were incubated in a Transwell culture system and, after irradiation, fixed in formalin 24 h later. Morphometric measurements of epithelial thickness revealed that it was unaffected by exposure to ionizing rays. Immunofluorescence analysis of desmosomal cadherin expression (desmoglein 1/desmoglein 3) demonstrated that the distribution of desmoglein 1 was not affected, whereas the expression of desmoglein 3 decreased in the suprabasal layers of irradiated samples. It is suggested that this has consequences for the mechanical integrity of the mucosa and promotes the development of radiation mucositis.

Cream formulation impact on topical administration of engineered colloidal nanoparticles.

In order to minimize the impact of systemic toxicity of drugs in the treatment of local acute and chronic inflammatory reactions, the achievement of reliable and efficient delivery of therapeutics in/through the skin is highly recommended. While the use of nanoparticles is now an established practice for drug intravenous targeted delivery, their transdermal penetration is still poorly understood and this important administration route remains almost unexplored. In the present study, we have synthesized magnetic (iron oxide) nanoparticles (MNP) coated with an amphiphilic polymer, developed a water-in-oil emulsion formulation for their topical administration and compared the skin penetration routes with the same nanoparticles deposited as a colloidal suspension. Transmission and scanning electron microscopies provided ultrastructural evidence that the amphiphilic nanoparticles (PMNP) cream formulation allowed the efficient penetration through all the skin layers with a controllable kinetics compared to suspension formulation. In addition to the preferential follicular pathway, also the intracellular and intercellular routes were involved. PMNP that crossed all skin layers were quantified by inductively coupled plasma mass spectrometry. The obtained data suggests that combining PMNP amphiphilic character with cream formulation improves the intradermal penetration of nanoparticles. While PMNP administration in living mice via aqueous suspension resulted in preferential nanoparticle capture by phagocytes and migration to draining lymph nodes, cream formulation favored uptake by all the analyzed dermis cell types, including hematopoietic and non-hematopoietic. Unlike aqueous suspension, cream formulation also favored the maintenance of nanoparticles in the dermal architecture avoiding their dispersion and migration to draining lymph nodes via afferent lymphatics.