3 research outputs found
Rapid Influenza Testing in Infants and Children Younger than 6 Years in Primary Care : Impact on Antibiotic Treatment and Use of Health Services
This study was partially financed by an unrestricted grant from AstraZeneca Pharmaceutical Spain. The funders had no role in the study design, data col-lection and analysis, decision to publish or preparation of the manuscript.Influenza is often misdiagnosed in children because of the low sensitivity of clinical diagnosis because of nonspecific signs and symptoms. This can be overcome by using digital immunoassays or rapid molecular diagnostic tests with adequate sensitivity and specificity. When using these tests at the patient care site, antibiotic consumption and number of healthcare consultations were reduced
Urinary proteome analysis identified neprilysin and VCAM as proteins involved in diabetic nephropathy
Urinary proteome was analyzed and quantified by tandem mass tag (TMT) labeling followed by bioinformatics analysis to study diabetic nephropathy (DN) pathophysiology and to identify biomarkers of a clinical outcome. We included type 2 diabetic normotensive non-obese males with () and without () incipient DN (microalbuminuria). Sample collection included blood and urine at baseline (control and DN basal) and, in DN patients, after 3 months of losartan treatment (DN treated). Urinary proteome analysis identified 166 differentially abundant proteins between controls and DN patients, 27 comparing DN-treated and DN-basal patients, and 182 between DN-treated patients and controls. The mathematical modeling analysis predicted 80 key proteins involved in DN pathophysiology and 15 in losartan effect, a total of 95 proteins. Out of these 95, 7 are involved in both processes. VCAM-1 and neprilysin stand out of these 7 for being differentially expressed in the urinary proteome. We observed an increase of VCAM-1 urine levels in DN-basal patients compared to diabetic controls and an increase of urinary neprilysin in DN-treated patients with persistent albuminuria; the latter was confirmed by ELISA. Our results point to neprilysin and VCAM-1 as potential candidates in DN pathology and treatment.Funding was granted
by Fondo de Investigación Sanitaria, Ministerio de Sanidad
(PI10/01261) to Patricia Fernández-Llama) and ISCIII
RETIC REDINREN FEDER Funds (RD12/0021/0033). The
proteomics laboratory CSIC/UAB is a member of Proteored,
PRB2-ISCIII and is supported by grant PT13/0001, of the PE
I+D+i 2013-2016, funded by ISCIII and FEDER.Peer reviewe
KAP degradation by calpain is associated with CK2 phosphorylation and provides a novel mechanism for cyclosporine A-induced proximal tubule injury
The use of cyclosporine A (CsA) is limited by its severe nephrotoxicity that includes reversible vasoconstrictor effects and proximal tubule cell injury, the latter associated whith chronic kidney disease progression. The mechanisms of CsA-induced tubular injury, mainly on the S3 segment, have not been completely elucidated. Kidney androgen-regulated protein (KAP) is exclusively expressed in kidney proximal tubule cells, interacts with the CsA-binding protein cyclophilin B and its expression diminishes in kidneys of CsA-treated mice. Since we reported that KAP protects against CsA toxicity in cultured proximal tubule cells, we hypothesized that low KAP levels found in kidneys of CsA-treated mice might correlate with proximal tubule cell injury. To test this hypothesis, we used KAP Tg mice developed in our laboratory and showed that these mice are more resistant to CsA-induced tubular injury than control littermates. Furthermore, we found that calpain, which was activated by CsA in cell cultures and kidney, is involved in KAP degradation and observed that phosphorylation of serine and threonine residues found in KAP PEST sequences by protein kinase CK2 enhances KAP degradation by calpain. Moreover, we also observed that CK2 inhibition protected against CsA-induced cytotoxicity. These findings point to a novel mechanism for CsA-induced kidney toxicity that might be useful in developing therapeutic strategies aimed at preventing tubular cell damage while maintaining the immunosuppressive effects of CsA