Chronic kidney disease, the end result of most renal and some systemic diseases, is a common condition where renal function is compromised due to fibrosis. During renal fibrosis, calreticulin, a multifunctional chaperone of the endoplasmic reticulum (ER) is up‐regulated in tubular epithelial cells (TECs) both in vitro and in vivo. Proteomic analysis of cultured TECs overexpressing calreticulin led to the identification of the family of 14‐3‐3 proteins as key proteins overexpressed as well. Furthermore, an increased expression in the majority of 14‐3‐3 family members was observed in 3 different animal models of renal pathologies: the unilateral ureteric obstruction, the nephrotoxic serum administration and the ischaemia‐reperfusion. In all these models, the 14‐3‐3σ isoform (also known as stratifin) was predominantly overexpressed. As in all these models ischaemia is a common denominator, we showed that the ischaemia‐induced transcription factor HIF1α is specifically associated with the promoter region of the 14‐3‐3σ gene. Finally, we evaluated the expression of the family of 14‐3‐3 proteins and specifically 14‐3‐3σ in biopsies from IgA nephropathy and membranous nephropathy patients. These results propose an involvement of 14‐3‐3σ in renal pathology and provide evidence for the first time that hypoxia may be responsible for its altered expression.
During the 17th century, Ludovico Maria Barbieri from Imola, Italy, discussed the requirement of a gas, seemingly oxygen, for living beings to function. On 6 December 1680, he published his only known work 'Spiritus nitro-aerei operations in microcosmo' in which he reviewed the function of oxygen and the apparatus he used based on the use of experiments rather than just theory. The scarcity of information about his life and work has resulted usually in him being a neglected figure in Italy. In this manuscript we uncover the extant information about his life and reveal that he had been a restless spirit and a great example to the 17th century scientific method.
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