Francesco Demetrio Lofaro scite author profile

Pomacea canaliculata is a freshwater snail with interesting biological features that include invasiveness, human parasite hosting, and adult regeneration. Its immune system may represent the target for strategies aimed at controlling the spread of the snail population and its hosting of the human parasite Angiostrongylus cantonensis. Moreover, immune functions likely have a role in the snail's ability to wound heal and regenerate. Despite its importance in multiple processes, very little is known about the molecular basis of P. canaliculata immunity. Aiming to contribute to filling this gap, the ultrastructure of circulating hemocytes in healthy snails is studied and the first proteomic analysis of these cells is performed, evidencing 83 unique proteins, 96% of which have identifiable homologs in other species. Fifteen proteins are retrieved as potentially involved in immune‐related signaling pathways, such as hemocyanin, C1q‐like protein, and HSP90 together with cytoskeleton and cytoskeleton‐related proteins involved in cell motility and membrane dynamics. This first proteome study on non‐stimulated hemocytes provides a valid reference for future investigations on the molecular changes under stressful circumstances, like pathogen exposure, wounding, or environmental changes.

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Age-Related Changes in the Matrisome of the Mouse Skeletal Muscle

Lofaro

Cisterna

Lacavalla

et al. 2021

IJMS

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Aging is characterized by a progressive decline of skeletal muscle (SM) mass and strength which may lead to sarcopenia in older persons. To date, a limited number of studies have been performed in the old SM looking at the whole, complex network of the extracellular matrix (i.e., matrisome) and its aging-associated changes. In this study, skeletal muscle proteins were isolated from whole gastrocnemius muscles of adult (12 mo.) and old (24 mo.) mice using three sequential extractions, each one analyzed by liquid chromatography with tandem mass spectrometry. Muscle sections were investigated using fluorescence- and transmission electron microscopy. This study provided the first characterization of the matrisome in the old SM demonstrating several statistically significantly increased matrisome proteins in the old vs. adult SM. Several proteomic findings were confirmed and expanded by morphological data. The current findings shed new light on the mutually cooperative interplay between cells and the extracellular environment in the aging SM. These data open the door for a better understanding of the mechanisms modulating myocellular behavior in aging (e.g., by altering mechano-sensing stimuli as well as signaling pathways) and their contribution to age-dependent muscle dysfunction.

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The biology of vascular calcification

Quaglino

Boraldi

Lofaro

2020

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The mineralization process of insoluble elastin fibrillar structures: Ionic environment vs degradation

Boraldi

Moscarelli

Lofaro

et al. 2020

International Journal of Biological Macromolecules

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Apoptosis in the Extraosseous Calcification Process

Boraldi

Lofaro

Quaglino

2021

Cells

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Extraosseous calcification is a pathologic mineralization process occurring in soft connective tissues (e.g., skin, vessels, tendons, and cartilage). It can take place on a genetic basis or as a consequence of acquired chronic diseases. In this last case, the etiology is multifactorial, including both extra- and intracellular mechanisms, such as the formation of membrane vesicles (e.g., matrix vesicles and apoptotic bodies), mitochondrial alterations, and oxidative stress. This review is an overview of extraosseous calcification mechanisms focusing on the relationships between apoptosis and mineralization in cartilage and vascular tissues, as these are the two tissues mostly affected by a number of age-related diseases having a progressively increased impact in Western Countries.

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