Iron and zinc deficiencies likely coexist in general population. We have previously demonstrated that zinc treatment induces while zinc deficiency inhibits iron absorption in intestinal cell culture models, but this needs to be tested in vivo. In the present study we assessed intestinal iron absorption, iron status (haemoglobin), red blood cell number, plasma ferritin, transferrin receptor, hepcidin) and tissue iron levels in zinc depleted, replete and pair fed control rats. Zinc depletion led to reduction in body weight, tissue zinc levels, intestinal iron absorption, protein and mRNA expression of iron transporters, the divalent metal ion transporter-1, hephaestin and ferroportin, but elevated the intestinal and liver tissue iron levels compared with the pair fed control rats. Zinc repletion led to a significant weight gain compared to zinc deficient rats and normalized the iron absorption, iron transporter expression, tissue iron levels to that of pair fed control rats. Surprisingly, haemoglobin levels and red blood cell number reduced significantly in zinc repleted rats, which could be due to rapid weight gain. Together, these results indicate that whole body zinc status has profound influence on growth, intestinal absorption and systemic utilization of iron, mediated via modulation of iron transporter expression.The hydrophobicity of lipids prevents their free movement across the cytoplasm. To achieve highly heterogeneous and precisely regulated lipid distribution in different cellular membranes, lipids are transported by lipid transfer proteins (LTPs) in addition to their transport by vesicles. Sec14 family is one of the most extensively studied groups of LTPs. Here we provide an overview of Sec14 family of LTPs in the most studied yeast Saccharomyces cerevisiae as well as in other selected non-Saccharomyces yeasts-Schizosaccharomyces pombe, Kluyveromyces lactis, Candida albicans, Candida glabrata, Cryptococcus neoformans, and Yarrowia lipolytica. Discussed are specificities of Sec14-domain LTPs in various yeasts, their mode of action, subcellular localization, and physiological function. In addition, quite few Sec14 family LTPs are target of antifungal drugs, serve as modifiers of drug resistance or influence virulence of pathologic yeasts. Thus, they represent an important object of study from the perspective of human health.Cholesterol is an essential component of eukaryotic cellular membranes. EUK 134 chemical structure Information about its subcellular localization and transport pathways inside cells are key for the understanding and treatment of cholesterol-related diseases. In this review we give an overview over the most commonly used methods that contributed to our current understanding of subcellular cholesterol localization and transport routes. First, we discuss methods that provide insights into cholesterol metabolism based on readouts of downstream effects such as esterification. Subsequently, we focus on the use of cholesterol-binding molecules as probes that facilitate visualization and quantification of sterols inside of cells. Finally, we explore different analogues of cholesterol which, when taken up by living cells, are integrated and transported in a similar fashion as endogenous sterols. Taken together, we highlight the challenges and advantages of each method such that researchers studying aspects of cholesterol transport may choose the most pertinent approach for their problem.

Interstitial lung disease (ILD) represents the main pulmonary involvement in primary Sjogren syndrome (pSS). A proportion of patients with pSS develop a progressive fibrosing form of ILD, but no data are available about the prevalence of these patterns in pSS patients. Aim of this monocentric, cross-sectional study was to investigate the prevalence of fibrosing patterns in pSS patients with ILD.

All consecutive patients fulfilling classification criteria for pSS with a new or previous diagnosis of ILD were enrolled in the study. Diagnosis of ILD was always performed by mean of HRCT and specific patterns were identified according to current classification criteria and divided in two groups according to the detection of a fibrotic pattern.

Thirty-four pSS-ILD patients were enrolled in the study (males/females 3/31, median age 69.5 years, median pSS duration 47.5 months). Fibrotic pattern was detected in 52.9% of patients, namely UIP (13 patients, 38.2%), fibrotic NSIP (4, 11.8%), fibrotic OP (1 2.9%) and group 2 (16 pts, 47.1%) including NSIP (6, 17.6%), OP (4, 11.8%), LIP (2, 5.9%) and unclassifiable (4, 11.8%). These patients were younger and with a shorter pSS duration at ILD diagnosis, in particular ILD diagnosis was prior or concurrent to pSS in 83.3% of cases compared to 62.5% in the group of nonfibrotic pattern (P<0.05).

Our data suggest a high prevalence of this pulmonary clinical phenotype in pSS-ILD patients. Since the course of progressive fibrosing pneumonia generally results in respiratory failure, this result could be worthy of further studies.

Our data suggest a high prevalence of this pulmonary clinical phenotype in pSS-ILD patients. Since the course of progressive fibrosing pneumonia generally results in respiratory failure, this result could be worthy of further studies.

To analyze the treatment success rate (TSR = sum of cured or treatment completed) in the tuberculosis (TB) program for drug-susceptible TB (DS-TB) at the “Centre Hospitalier Régional Spécialisé” in Macenta, Forest Region, Republic of Guinea.

This cohort study included patients who started treatment for DS-TB between 2010 and 2017. Data collection was part of the documentation for the national TB program. Descriptive analysis was applied to determine the TSR in various patient groups. Further, logistic regression was performed to determine factors influencing the TSR in new and relapsed cases versus all other previously treated cases. A subgroup analysis for only microbiologically confirmed pulmonary TB was added.

The study included 3969 patients. The TSR increased from 68.3% in 2010 to 80.8% in 2017 (p < 0.001). Mortality (11.2%) mainly occurred in early treatment months, while loss to follow-up (5.9%) increased towards later treatment months. Risk factors for low TSR were advanced age, positive HIV status, long travel distances (>100 km) to the clinic, and late treatment refill.