👤 Timothy Cardozo

Lipoprotein(a) [Lp(a)] is a genetically determined and independent cardiovascular risk factor. Despite its clinical relevance, data on Lp(a) prevalence and impact in Latin America are limited. We aimed to assess the prevalence of elevated Lp(a) and its association with cardiovascular outcomes in a large, multicenter Argentine registry. The GAELp(a) registry included 3000 adults from six Argentine regions. Lp(a) levels were measured using standardized assays; elevated Lp(a) was defined as >50 mg/dL or >125 nmol/L. Clinical, biochemical, and imaging data were collected retrospectively and prospectively. Associations between Lp(a) and major adverse cardiovascular events (MACE) were evaluated with logistic regression in the overall population and stratified by statin use. Elevated Lp(a) was present in 31.4 % of participants, with no sex difference. It was associated with family history of cardiovascular disease, subclinical atherosclerosis, and familial hypercholesterolemia. Patients with elevated Lp(a) had a higher prevalence of coronary artery disease (18.4 % vs. 12.5 %, p < 0.001), peripheral artery disease (4.8 % vs. 2.5 %, p = 0.001), and MACE (21.3 % vs. 14.8 %, p < 0.001). Elevated Lp(a) independently predicted MACE (OR 1.53, 95 % CI: 1.24-1.90, p < 0.001), with stronger associations in statin-naïve individuals (OR 2.18, 95 % CI: 1.17-4.07). ROC analysis showed modest discrimination (AUC 0.57 in nmol/L, 0.59 in mg/dL). Elevated Lp(a) is frequent in Argentina and strongly linked to cardiovascular disease and events. Its predictive value appears greater in statin-naïve patients, highlighting its role as a marker of residual risk. These findings support routine Lp(a) measurement in cardiovascular risk assessment, particularly in regions with high ASCVD burden. Show less

Renal transplant is the best treatment for patients with chronical kidney disease however acute graft rejection is the major impediment to success in renal transplantation leading to loss of the organ the first year after transplantation. The aim of this study was to identify plasma proteins that may be early biomarkers of acute rejection of renal allograft, developing a diagnostic model that avoids the loss of the transplanted organ. Shotgun proteomics (LC-MS/MS) method was used to analyze a set of thirty-one plasma samples, including 06 from patients with acute graft rejection after transplantation (rejection group/Rej-group) and twenty-five from renal transplant patients with stable renal graft function (control group/Ct-group). As results nineteen proteins were upregulated in the rejection group compared to the control group, and two proteins were downregulated; and three were present exclusively in the rejection group. After analysis, we selected four proteins that were related to the acute phase response and that were strongly associated with each other: they are alpha-1 antitrypsin (A1AT), alpha-2 antiplasmin (A2AP), serum amyloid A (SAA) and apolipoprotein CIII (APOC3). We think that simultaneous monitoring of SAA and APOC3 can provide insights into a broad profile of signaling proteins and is highly valuable for the early detection of a possible acute renal graft rejection. In this study we did plasma shotgun patients with and without acute rejection of renal allograft. In a clinical setting an acute rejection is typically suspected upon an increase in plasma creatinine and renal biopsy. But these methods are late and unspecific; sometimes the rejection process is already advanced when there is an increase in serum creatinine. Therefore, it is necessary to find proteins that can predict the allograft rejection process. In our study were able to identify changes in the concentration of plasma protein belonging to a network of protein interaction processes the acute phase response. We believe, therefore, that development of a routine diagnosis of these proteins can detect early acute rejection of renal allograft process, thus preventing its loss. Show less

In mouse models of atherosclerosis, normalization of hyperlipidemia promotes macrophage emigration and regression of atherosclerotic plaques in part by liver X receptor (LXR)-mediated induction of the chemokine receptor CCR7. Here we report that LXRα serine 198 (S198) phosphorylation modulates CCR7 expression. Low levels of S198 phosphorylation are observed in plaque macrophages in the regression environment where high levels of CCR7 expression are observed. Consistent with these findings, CCR7 gene expression in human and mouse macrophages cell lines is induced when LXRα at S198 is nonphosphorylated. In bone marrow-derived macrophages (BMDMs), we also observed induction of CCR7 by ligands that promote nonphosphorylated LXRα S198, and this was lost in LXR-deficient BMDMs. LXRα occupancy at the CCR7 promoter is enhanced and histone modifications associated with gene repression are reduced in RAW264.7 cells expressing nonphosphorylated LXRα (RAW-LXRα S198A) compared to RAW264.7 cells expressing wild-type (WT) phosphorylated LXRα (RAW-LXRα WT). Expression profiling of ligand-treated RAW-LXRα S198A cells compared to RAW-LXRα WT cells revealed induction of cell migratory and anti-inflammatory genes and repression of proinflammatory genes. Modeling of LXRα S198 in the nonphosphorylated and phosphorylated states identified phosphorylation-dependent conformational changes in the hinge region commensurate with the presence of sites for protein interaction. Therefore, gene transcription is regulated by LXRα S198 phosphorylation, including that of antiatherogenic genes such as CCR7. Show less