Bioengineered tissue solutions for repair, correction and reconstruction in cardiovascular surgery.

The treatment of cardiac alterations is still nowadays a dramatic issue in the cardiosurgical practice. Synthetic materials applied in this surgery have failed in their long-term therapeutic efficacy due to low biocompatibility and compliance, especially when used in contractile sites. In order to overcome these treatment pitfalls, novel solutions have been developed based on biological tissues.

The Rapidly Evolving Concept of Whole Heart Engineering.

Whole heart engineering represents an incredible journey with as final destination the challenging aim to solve end-stage cardiac failure with a biocompatible and living organ equivalent. Its evolution started in 2008 with rodent organs and is nowadays moving closer to clinical application thanks to scaling-up strategies to human hearts. This review will offer a comprehensive examination on the important stages to be reached for the bioengineering of the whole heart, by describing the approaches of organ decellularization, repopulation, and maturation so far applied and the novel technologies of potential interest.

The Light and Shadow of Senescence and Inflammation in Cardiovascular Pathology and Regenerative Medicine.

Recent epidemiologic studies evidence a dramatic increase of cardiovascular diseases, especially associated with the aging of the world population. During aging, the progressive impairment of the cardiovascular functions results from the compromised tissue abilities to protect the heart against stress. At the molecular level, in fact, a gradual weakening of the cellular processes regulating cardiovascular homeostasis occurs in aging cells.

Phosphatidylinositol 4-Phosphate 5-Kinase β Controls Recruitment of Lipid Rafts into the Immunological Synapse.

Phosphatidylinositol 4,5-biphosphate (PIP2) is critical for T lymphocyte activation serving as a substrate for the generation of second messengers and the remodeling of actin cytoskeleton necessary for the clustering of lipid rafts, TCR, and costimulatory receptors toward the T:APC interface. Spatiotemporal analysis of PIP2 synthesis in T lymphocytes suggested that distinct isoforms of the main PIP2-generating enzyme, phosphatidylinositol 4-phosphate 5-kinase (PIP5K), play a differential role on the basis of their distinct localization. In this study, we analyze the contribution of PIP5Kβ to T cell activation and show that CD28 induces the recruitment of PIP5Kβ to the immunological synapse, where it regulates filamin A and lipid raft accumulation, as well as T cell activation, in a nonredundant manner.

Mesenchymal stem cells: myths and reality.

Mesenchymal stem cells (MSCs; also called mesenchymal stromal cells) have received much attention during the last two decades, at first because of their regeneration capacity and poor immunogenicity and, more recently, because of their proved immunomodulatory function. Consequently, the number of studies addressing MSC biology and their capacity to treat a broad range of human diseases at the preclinical and clinical level has grown exponentially, with often confusing and conflicting results. The use of poorly defined cell preparations and experimental models, many of them in vitro, has added to such confusion.

Calcium dynamics in the peroxisomal lumen of living cells.

We here describe the generation of novel, green fluorescent protein-based Ca(2+) indicators targeted to the peroxisome lumen. We show that (i) the Ca(2+) concentration of peroxisomes in living cells at rest is similar to that of the cytosol; (ii) increases in cytosolic Ca(2+) concentration (elicited by either Ca(2+) mobilization from stores or Ca(2+) influx through plasma membrane Ca(2+) channels) are followed by a slow rise in intraperoxisomal [Ca(2+)]; (iii) Ca(2+) influx into peroxisomes is driven neither by an ATP-dependent pump nor by membrane potential nor by a H(+)(Na(+)) gradient. The peroxisomal membrane appears to play a low pass filter role, preventing the organelle from taking up shortlasting cytosolic Ca(2+) transients but allowing equilibration of the peroxisomal luminal [Ca(2+)] with that of the cytosol during prolonged Ca(2+) increases.

T cells and their partners: The chemokine dating agency.

Chemokines and their receptors have long been recognized as key molecules directing leukocyte migration between blood, lymph and tissues. Evidence accumulated in recent years indicates that, in addition to their chemotactic functions, chemokine receptors are highly versatile players fine-tuning immune responses. Chemokine receptors and ligands have been implicated in dendritic-cell maturation, signal transmission at the immunological synapse between T lymphocytes and their cellular partners, and in the polarization of immune responses.