Publications

With significant attention paid to the field of tissue-specific stem cells, the identification of stem cell-specific markers is of considerable importance. Previously, the side population (SP) phenotype, with the capacity to efflux the DNA-binding dye Hoechst 33342, has been recognized as a common feature of adult tissue-specific stem cells. In this study, we show that high expression of integrin beta(3) (CD61) is an attribute of SP cells isolated from mouse bone marrow. Additionally, we confirmed that the expression of integrin beta(3) is correlated with properties of quiescent hemopoietic stem cells (HSCs) including the strength of the SP phenotype, cell cycle arrest, expression of HSC markers, and long-term hemopoiesis. Importantly, Lineage(-) (Lin(-))/integrin beta(3)(high) (beta(3)(high)) SP cells have as strong a capacity for long-term hemopoiesis as c-Kit(+)/Sca-1(+)/Lin(-) SP cells, which are regarded as one of the most highly enriched HSC populations. Finally, the integrin beta(3) subunit that is present in SP cells having the properties of HSCs, is associated with integrin alpha(v) (CD51). Therefore, our results demonstrate that high expression of integrin beta(3) is correlated to the properties of quiescent HSCs and suggest that the integrin beta(3) subunit is available as a common surface marker of tissue-specific stem cells.

For patients with acute lung injury, positive pressure mechanical ventilation is life saving. However, considerable experimental and clinical data have demonstrated that how clinicians set the tidal volume, positive end-expiratory pressure, and plateau airway pressure influences lung injury severity and patient outcomes including mortality. In order to better identify ventilator-associated lung injury (VALI), clinical investigators have sought to measure blood-borne and airspace biological markers of VALI. At the same time, several laboratory-based studies have focused on biological markers of inflammation and organ injury in experimental models in order to clarify the mechanisms of ventilator-induced lung injury (VILI) and VALI. This review summarizes data on biological markers of VALI and VILI from both clinical and experimental studies with an emphasis on markers identified in patients and in the experimental setting. This analysis suggests that measurement of some of these biological markers may be of value in diagnosing VALI and in understanding its pathogenesis.