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S Wurtzer V Marechal JM Mouchel Y Maday R Teyssou E Richard JL Almayrac L Moulin 《Euro surveillance : bulletin européen sur les maladies transmissibles = European communicable disease bulletin》2020,25(50)
IntroductionSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is the etiological agent of coronavirus disease (COVID-19). People infected with SARS-CoV-2 may exhibit no or mild non-specific symptoms; thus, they may contribute to silent circulation of the virus among humans. Since SARS-CoV-2 RNA can be detected in stool samples, monitoring SARS-CoV-2 RNA in waste water (WW) has been proposed as a complementary tool to investigate virus circulation in human populations.AimTo test if the quantification of SARS-CoV-2 genomes in WW correlates with the number of symptomatic or non-symptomatic carriers.MethodWe performed a time-course quantitative analysis of SARS-CoV-2 by RT-qPCR in raw WW samples collected from several major WW treatment plants in Greater Paris. The study period was 5 March to 23 April 2020, including the lockdown period in France (from 17 March).ResultsWe showed that the increase of genome units in raw WW accurately followed the increase of human COVID-19 cases observed at the regional level. Of note, the viral genome could be detected before the epidemic grew massively (around 8 March). Equally importantly, a marked decrease in the quantities of genome units was observed concomitantly with the reduction in the number of new COVID-19 cases, 29 days following the lockdown.ConclusionThis work suggests that a quantitative monitoring of SARS-CoV-2 genomes in WW could generate important additional information for improved monitoring of SARS-CoV-2 circulation at local or regional levels and emphasises the role of WW-based epidemiology. 相似文献
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Insular degeneration has been linked to symptoms of frontotemporal dementia (FTD). Presented in this case is a patient exhibiting semantic variant primary progressive aphasia, behavioral disturbance. Upon autopsy, he was found to have severe insular atrophy. In addition, selective serotonin reuptake inhibitors were ineffective in reducing symptoms of obsessive–compulsive behaviors or emotional blunting. This case suggests that Seeley et al.'s (2007, Alzheimer Disease & Associated Disorders, 21, S50) hypothesis that von Economo neurons and fork cell-rich brain regions, particularly in the insula, are targeted in additional subtypes of FTD beyond the behavioral variant. 相似文献
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Adam L Boxer David S Knopman Daniel I Kaufer Murray Grossman Chiadi Onyike Neill Graf-Radford Mario Mendez Diana Kerwin Alan Lerner Chuang-Kuo Wu Mary Koestler Jill Shapira Kathryn Sullivan Kristen Klepac Kristine Lipowski Jerin Ullah Scott Fields Joel H Kramer Bruce L Miller 《Lancet neurology》2013,12(2):149-156
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Sandra Merscher-Gomez Johanna Guzman Christopher E. Pedigo Markku Lehto Robier Aguillon-Prada Armando Mendez Mariann I. Lassenius Carol Forsblom TaeHyun Yoo Rodrigo Villarreal Dony Maiguel Kevin Johnson Ronald Goldberg Viji Nair Ann Randolph Matthias Kretzler Robert G. Nelson George W. Burke III Per-Henrik Groop Alessia Fornoni the FinnDiane Study Group 《Diabetes》2013,62(11):3817-3827
Diabetic kidney disease (DKD) remains the most common cause of end-stage kidney disease despite multifactorial intervention. We demonstrated that increased cholesterol in association with downregulation of ATP-binding cassette transporter ABCA1 occurs in normal human podocytes exposed to the sera of patients with type 1 diabetes and albuminuria (DKD+) when compared with diabetic patients with normoalbuminuria (DKD−) and similar duration of diabetes and lipid profile. Glomerular downregulation of ABCA1 was confirmed in biopsies from patients with early DKD (n = 70) when compared with normal living donors (n = 32). Induction of cholesterol efflux with cyclodextrin (CD) but not inhibition of cholesterol synthesis with simvastatin prevented podocyte injury observed in vitro after exposure to patient sera. Subcutaneous administration of CD to diabetic BTBR (black and tan, brachiuric) ob/ob mice was safe and reduced albuminuria, mesangial expansion, kidney weight, and cortical cholesterol content. This was followed by an improvement of fasting insulin, blood glucose, body weight, and glucose tolerance in vivo and improved glucose-stimulated insulin release in human islets in vitro. Our data suggest that impaired reverse cholesterol transport characterizes clinical and experimental DKD and negatively influences podocyte function. Treatment with CD is safe and effective in preserving podocyte function in vitro and in vivo and may improve the metabolic control of diabetes.Diabetic kidney disease (DKD) is responsible for nearly half of the incidents of end-stage kidney disease in the U.S. (1), yet our current understanding of the pathophysiological processes responsible for DKD has led to limited improvements in patient outcomes. Multifactorial intervention reduces the rate of progression of DKD but does not prevent end-stage kidney disease in type 1 (T1D) or type 2 diabetes (T2D) (2,3). A key factor for this translation gap is the current lack of adequate mechanistic insight into DKD in humans.The kidney glomerulus is a highly specialized structure that ensures the selective ultrafiltration of plasma so that essential proteins are retained in the blood (4). Podocytes are glomerular epithelial cells that contribute to the glomerular filtration barrier through a tight regulation of actin cytoskeleton remodeling (4). Currently, the diagnosis of DKD relies on the detection of microalbuminuria (5). However, a growing body of evidence suggests that key histological lesions precede the development of albuminuria (6,7); among them, decreased podocyte number (podocytopenia) has been described as an independent predictor of DKD progression (8–12). Although we have previously shown that podocyte insulin resistance and susceptibility to apoptosis is already present at the time of onset of microalbuminuria in experimental models of DKD, the cause of podocyte injury in early DKD remains unknown (13).We used a previously established cell-based assay in which differentiated human podocytes are exposed to 4% patient sera for 24 h (14) to identify new pathways and targets in DKD. Podocytes exposed to the sera of patients with DKD showed increased cholesterol accumulation in association with downregulation of ATP-binding cassette transporter 1 (ABCA1) expression that was independent of circulating cholesterol.ABCA1 is a major regulator of cellular cholesterol homeostasis by mediating efflux to lipid-poor apolipoprotein acceptors in the bloodstream (15). ABCA1 genetic variants are strongly associated with the risk of coronary artery disease (16). Furthermore, the capacity of patient sera to induce ABCA1-mediated cholesterol efflux in macrophages is impaired in patients with T2D and incipient or overt nephropathy (17). Excessive cholesterol accumulation has been described in glomeruli of rodent models of T1D and T2D (18–20) and may contribute to DKD development and progression. Finally, inactivating mutations of ABCA1 result in Tangier disease, which causes premature atherosclerosis and proteinuria (21).Although interventions that increase ABCA1 expression (such as liver X receptor agonists) may be beneficial in DKD, they have a relatively high incidence of adverse events (22) as well as intrinsic lipogenic effects (23). We used β-cyclodextrins, cyclic oligosaccharides consisting of seven β(1-4)-glucopyranose rings, to remove cholesterol from differentiated human podocytes in vitro and from diabetic animals in vivo. The exact mechanism by which cyclodextrins (CDs) remove cholesterol from cells is not completely understood, but the formation of cholesterol/CD inclusion complexes at the membrane surface plays an important role in this process (24).We hypothesized that 2-hydroxypropyl-β-cyclodextrin, which was recently approved by the U.S. Food and Drug Administration (FDA) for the cure of Niemann-Pick disorder (25,26), would be an effective way to sequester cholesterol and to protect podocytes from cholesterol-dependent damage in DKD in vivo and in vitro. 相似文献
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Y. Tan M. H. Abdulreda F. Cruz‐Guilloty N. Cutrufello A. Shishido R. E. Martinez S. Duffort X. Xia J. Echegaray‐Mendez R. B. Levy P.‐O. Berggren V. L. Perez 《American journal of transplantation》2013,13(6):1461-1473
Keratoplasty is the primary treatment to cure blindness due to corneal opacification. However, immune‐mediated rejection remains the leading cause of keratoplasty failure. Here, we utilize an in vivo imaging approach to monitor, track, and characterize in real‐time the recruitment of GFP‐labeled allo‐specific activated (Bonzo) T cells during corneal allograft rejection. We show that the recruitment of effector T cells to the site of transplantation determined the fate of corneal allografts, and that local intra‐graft production of CCL5 and CXCL9/10 regulated motility patterns of effector T cells in situ, and correlated with allograft rejection. We also show that different motility patterns associate with distinct in vivo phenotypes (round, elongated, and ruffled) of graft‐infiltrating effector T cells with varying proportions during progression of rejection. The ruffled phenotype was characteristic of activated effectors T cells and predominated during ongoing rejection, which associated with significantly increased T cell dynamics within the allografts. Importantly, CCR5/CXCR3 blockade decreased the motility, size, and number of infiltrating T cells and significantly prolonged allograft survival. Our findings indicate that chemokines produced locally within corneal allografts play an important role in the in situ activation and dynamic behavior of infiltrating effector T cells, and may guide targeted interventions to promote graft survival. 相似文献