Generation of CD4CreERT2 transgenic mice to study development of peripheral CD4‐T‐cells

After thymic emigration CD4‐T‐cells continue to differentiate into multiple effector and suppressor sublineages in peripheral lymphoid organs. In vivo analysis of peripheral CD4‐T‐cell differentiation has relied on animal models with targeted gene mutations. These are expressed either constitutively or conditionally after Cre mediated recombination. Available Cre transgenic strains to specifically target T‐cells act at stages of thymocyte development that precede thymic selection. Tracing gene functions in CD4‐T‐cell development after thymic exit becomes complicated when the targeted gene is essential during thymic development. Other approaches to conditionally modify gene functions in peripheral T‐cells involve infection of in vitro activated cells with Cre expressing lenti‐, retro‐, or adenoviruses, which precludes in vivo analyses. To study molecular mechanisms of peripheral CD4‐T‐cell differentiation in vivo and in vitro we generated transgenic mice expressing a tamoxifen inducible Cre recombinase (CreER^T2) under the control of the CD4 gene promoter. We show here that in CD4CreER^T2 mice Cre is inducibly and selectively activated in CD4‐T‐cells. Tamoxifen treatment both in vivo and in vitro results in efficient recombination of loci marked by LoxP sites. Moreover, this strain shows no abnormalities related to transgene insertion. Therefore it provides a valuable tool for studying gene function during differentiation of naïve peripheral CD4‐T‐cells into effector or suppressor sub‐lineages. genesis 50:908–913, 2012. © 2012 Wiley Periodicals, Inc.     

A rapid and highly sensitive method of non radioactive colorimetric in situ hybridization for the detection of mRNA on tissue sections

Background

Non Radioactive colorimetric In Situ Hybridization (NoRISH) with hapten labeled probes has been widely used for the study of gene expression in development, homeostasis and disease. However, improvement in the sensitivity of the method is still needed to allow for the analysis of genes expressed at low levels.

Methodology/Principal Findings

A stable, non-toxic, zinc-based fixative was tested in NoRISH experiments on sections of mouse embryos using four probes (Lhx6, Lhx7, ncapg and ret) that have different spatial patterns and expression levels. We showed that Z7 can successfully replace paraformaldehyde used so far for tissue fixation in NoRISH; the morphology of the cryosections of Z7-fixed tissues was excellent, and the fixation time required for tissues sized 1 cm was 1 hr instead of 24 hr for paraformaldehyde. The hybridization signal on the sections of the Z7-treated embryos always appeared earlier than that of the PFA-fixed embryos. In addition, a 50–60% shorter detection time was observed in specimen of Z7-treated embryos, reducing significantly the time required to complete the method. Finally and most importantly, the strength of the hybridization signal on the sections of the Z7-treated embryos always compared favorably to that of the sections of PFA-fixed embryos; these data demonstrate a significant improvement of the sensitivity the method that allows for the analysis of mRNAs that are barely or not detected by the standard colorimetric NoRISH method.

Conclusions/Significance

Our NoRISH method provides excellent preservation of tissue morphology, is rapid, highly sensitive, and especially suitable to implement in the study of genes expressed at low levels and/or in sparse cells within a structure.     

Olympic weightlifting training causes different knee muscle-coactivation adaptations compared with traditional weight training

The purpose of this study was to compare the effects of an Olympic weightlifting (OL) and traditional weight (TW) training program on muscle coactivation around the knee joint during vertical jump tests. Twenty-six men were assigned randomly to 3 groups: the OL (n = 9), the TW (n = 9), and Control (C) groups (n = 8). The experimental groups trained 3 d · wk(-1) for 8 weeks. Electromyographic (EMG) activity from the rectus femoris and biceps femoris, sagittal kinematics, vertical stiffness, maximum height, and power were collected during the squat jump, countermovement jump (CMJ), and drop jump (DJ), before and after training. Knee muscle coactivation index (CI) was calculated for different phases of each jump by dividing the antagonist EMG activity by the agonist. Analysis of variance showed that the CI recorded during the preactivation and eccentric phases of all the jumps increased in both training groups. The OL group showed a higher stiffness and jump height adaptation than the TW group did (p < 0.05). Further, the OL showed a decrease or maintenance of the CI recorded during the propulsion phase of the CMJ and DJs, which is in contrast to the increase in the CI observed after TW training (p < 0.05). The results indicated that the altered muscle activation patterns about the knee, coupled with changes of leg stiffness, differ between the 2 programs. The OL program improves jump performance via a constant CI, whereas the TW training caused an increased CI, probably to enhance joint stability.     

The effects of adrenalectomy and thermal stress on glutamic acid decarboxylase activity in different regions of the rat brain

Glutamic acid decarboxylase (GAD) enzyme activity was measured in synaptosomes prepared from the hypothalamus, the hippocampus, the striatum and the cerebral cortex of control, adrenalectomized and rat exposed to a thermal stress. Adrenalectomy caused a statistically significant decrease in the enzyme activity in the striatum, while it had no effect in the other three brain areas. On the other hand, exposure to the thermal stress resulted in a dramatic increase of GAD specific activity in all brain areas examined. This thermal stress-induced increase in enzyme activity was observed in both non-operated and adrenalectomized animals, which implies that it is not mediated by glucocorticoids.Abbreviations used GAD glutamic acid decarboxylase - GABA -aminobutyric acid - AET 2-aminoethylisourethonium bromide - ADX adrenalectomized - rpm revolutions per minute     

Soluble CD40 ligand as a biomarker for storage-related preanalytic variations of human serum

There are currently no appropriate and sensitive biomarkers available to assess preanalytic variations in human biological fluids stored in biobanks. We identified soluble CD40 ligand (sCD40L) as the first ubiquitous biomarker to show an on-off response in serum exposed to moderate or elevated room temperature conditions. We used immunoenzyme assays to monitor the sCD40L response after 12 h storage at 37 degrees C or 48 h at 20 degrees C. Our findings show that prolonged storage of serum samples at elevated room temperature can be determined by the absence of detectable sCD40L.     

Plasminogen activator inhibitor type 1 inhibits smooth muscle cell proliferation in pulmonary arterial hypertension

RATIONALE: Pulmonary arterial smooth muscle cells (PASMCs) in the medial layer of the vessel wall are responsible for vessel homeostasis, but also for pathologic vascular remodelling in diseases, such as idiopathic pulmonary arterial hypertension (IPAH). Vascular remodelling in IPAH results in vessel stiffness, occlusion, and increased vascular resistance, but its underlying mechanisms remain to be fully elucidated. In this study, we investigated the expression and function of plasminogen activator inhibitor (PAI)-1, an inhibitor of the plasminogen activator system and target gene of the transforming growth factor (TGF)-beta1 signalling cascade, in PASMC in IPAH. METHODS AND RESULTS: RNA and protein analysis from lung tissues of donors and patients with IPAH (n=7 each) revealed a significant downregulation of PAI-1 in IPAH lungs. Immunohistochemical analysis localised PAI-1 to the bronchial and alveolar epithelium, as well as to vascular and airway smooth muscle cells. PAI-1 was also downregulated in primary PASMC derived from IPAH lungs as compared with donor-derived PASMC. In order to elucidate PAI-1 function, primary PASMC were stimulated with active recombinant (r)PAI-1, or transfected with PAI-1-specific siRNA. Stimulation with rPAI-1 led to decreased PASMC proliferation and adhesion to vitronectin, and increased PASMC migration. In contrast, PAI-1 knock-down with siRNA increased PASMC proliferation and decreased PASMC migration. CONCLUSIONS: PAI-1 is significantly downregulated in PASMC in IPAH, on the mRNA and protein level. PAI-1 negatively regulates PASMC proliferation, while it increases PASMC migration. Thus, its loss in IPAH may therefore contribute to pathologic vascular remodelling in IPAH.     

The beaded intermediate filaments and their potential functions in eye lens

The elongated fiber cells of the eye lens contain a unique cytoskeletal system, the beaded chain filaments (BFs). The BFs had been morphologically identified more than two decades ago, but the precise identity of their subunit molecules remained unknown. Recently, use of recombinant DNA approaches, refined morphological and immunochemical studies and experiments with mutant mice have allowed the molecular dissection of these structures and provided clues about their potential functins. The BFs represent a highly specialized network of intermediate filaments (IFs) juxtaposed to the plasma membrane. They are obligate heteropolymers composed of two lens-specific polypeptides, filensin and phakinin. In this review we discuss the properties, molecular interactions and in situ arrangement of these two proteins, and comment on their potential roles during lens development.