Correction to: Quantification of the contrasting root systems of Pinus thunbergii in soils with different groundwater levels in a coastal forest in Japan

Plant and Soil - The original version of this article unfortunately contained a mistake. Table 3 was published erroneously. This Table has now been corrected.     

Endothelin receptor in microvessels isolated from human meningiomas: Quantification with radioluminography

Summary 1. We characterized specific¹²⁵I-endothelin-1 (¹²⁵I-ET-1) binding sites in microvessels isolated from human meningiomas, using anin vitro quantitative receptor autoradiographic technique coupled to a radioluminographic imaging plate system.2. This newly developed and highly sensitive method revealed high-affinity ET receptors present in pellet sections of the microvessels from all the meningiomas studied, regardless of histological subtypes (dissociation constant, 1.2 ± 0.3 nM; maximum binding capacity, 185 ± 56 fmol/mg; means ± SE for nine tumors).3. In five cases of meningiomas, ET-3 competed for¹²⁵I-ET-1 binding to microvessels from those tumors with a low affinity [50% inhibiting concentration (IC₅₀) of 1.6 ± 0.4 × 10^–6 M], and a selective ET_B receptor agonist, sarafotoxin S6c, up to 10^–6 M, did not displace ET binding from the sections.4. In the sections of microvessels from four other tumors, biphasic competition curves were obtained in the case of incubation in the presence of increasing concentrations of ET-3, with an IC₅₀ of 1.1 ± 0.2 × 10^–9 M for the high-affinity component and 1.6 ± 0.3 × 10^–6 M for the low-affinity component, respectively. In addition, S6c competed for ET binding to those sections (IC₅₀=2.3 ± 0.2 × 10^–10 M) and 10^–6 M S6c displaced 30% of the control, corresponding to the high-affinity component of competition curves obtained in the presence of ET-3.5. Our results suggest that (a) capillaries in human meningiomas express a large number of high-affinity ET_A (non-ET_B) receptors with a small proportion of ET_B receptors, and (b) ET may have a role in neovascularization, tumor blood flow, and/or function of the blood-tumor barrier in meningioma tissues by interacting with specific receptors present on the surface of the endothelium.     

Consequences of abnormal CDK activity in S phase

Cyclin Dependent Kinases (CDKs) are important regulators of DNA replication. In this work we have investigated the consequences of increasing or decreasing the CDK activity in S phase. To this end we identified S-phase regulators of the fission yeast CDK, Cdc2, and used appropriate mutants to modulate Cdc2 activity. In fission yeast Mik1 has been thought to be the main regulator of Cdc2 activity in S phase. However, we find that Wee1 has a major function in S phase and thus we used wee1 mutants to investigate the consequences of increased Cdc2 activity. These wee1 mutants display increased replication stress and, particularly in the absence of the S-phase checkpoint, accumulate DNA damage. Notably, more cells incorporate EdU in a wee1^? strain as compared to wildtype, suggesting altered regulation of DNA replication. In addition, a higher number of cells contain chromatin-bound Cdc45, an indicator of active replication forks. In addition, we found that Cdc25 is required to activate Cdc2 in S phase and used a cdc25 mutant to explore a situation where Cdc2 activity is reduced. Interestingly, a cdc25 mutant has a higher tolerance for replication stress than wild-type cells, suggesting that reduced CDK activity in S phase confers resistance to at least some forms of replication stress.     

Role of stress-activated OCT4A in the cell fate decisions of embryonal carcinoma cells treated with etoposide

Tumor cellular senescence induced by genotoxic treatments has recently been found to be paradoxically linked to the induction of “stemness.” This observation is critical as it directly impinges upon the response of tumors to current chemo-radio-therapy treatment regimens. Previously, we showed that following etoposide (ETO) treatment embryonal carcinoma PA-1 cells undergo a p53-dependent upregulation of OCT4A and p21Cip1 (governing self-renewal and regulating cell cycle inhibition and senescence, respectively). Here we report further detail on the relationship between these and other critical cell-fate regulators. PA-1 cells treated with ETO display highly heterogeneous increases in OCT4A and p21Cip1 indicative of dis-adaptation catastrophe. Silencing OCT4A suppresses p21Cip1, changes cell cycle regulation and subsequently suppresses terminal senescence; p21Cip1-silencing did not affect OCT4A expression or cellular phenotype. SOX2 and NANOG expression did not change following ETO treatment suggesting a dissociation of OCT4A from its pluripotency function. Instead, ETO-induced OCT4A was concomitant with activation of AMPK, a key component of metabolic stress and autophagy regulation. p16ink4a, the inducer of terminal senescence, underwent autophagic sequestration in the cytoplasm of ETO-treated cells, allowing alternative cell fates. Accordingly, failure of autophagy was accompanied by an accumulation of p16ink4a, nuclear disintegration, and loss of cell recovery. Together, these findings imply that OCT4A induction following DNA damage in PA-1 cells, performs a cell stress, rather than self-renewal, function by moderating the expression of p21Cip1, which alongside AMPK helps to then regulate autophagy. Moreover, this data indicates that exhaustion of autophagy, through persistent DNA damage, is the cause of terminal cellular senescence.     

Risk factors associated with ixodid tick species distributions in the Basque region in Spain

Ixodid tick abundance was investigated in the Basque region in Spain in two 1-year longitudinal studies, in 1992-1993 and 2003-2004. Forty zones were visited monthly and 162 672 ticks (87% larvae, 12% nymphs and 1% adults) were collected by blanket dragging. Eleven tick species belonging to the genera Ixodes, Haemaphysalis, Rhipicephalus and Dermacentor were identified including Haemaphysalis concinna Koch, which had not previously been reported in Spain. Tick species abundance differed between zones, studies and seasons. In 1992-1993, Haemaphysalis punctata Canestrini & Fanzago was the predominant species and distinct spring-summer and autumn-early winter peaks of activity were observed. In 2003-2004, Ixodes ricinus (Linneaus) was the most common species and was active throughout the winter. Larval and nymph seasonal activity patterns coincided in both 1993 and 2003 and this could facilitate co-feeding transmission of pathogens. Higher tick abundance was associated with increased livestock abundance in 1992-1993 and milder winter temperatures in 2003-2004. Tick collection rates in areas with moderate and high tick density were positively associated with the interaction between ambient temperature at sampling and rainfall 7 days prior to sampling. Collection rates were also significantly higher at medium rather than higher altitude, in forested areas than in open grasslands and lower in recreational areas frequented by people and with wet vegetation at sampling.     

Vesicular transport of fe and interaction with other metal ions in polarized Caco2 cell monolayers

Two aspects of the mechanisms by which iron is absorbed by the intestine were studied in the Caco2 cell model, using 59Fe(II)-ascorbate. Data showing the importance of vesicular processes and cycling of apotransferrin (apoTf) to uptake and overall transport of Caco2 cell monolayers (or basolateral 59Fe release) were obtained by comparing effects of: a) adding apoTf to the basal chamber; b) adding vesicular transport inhibitors; or c) cooling to 4 degrees C. These showed that apoTf may be involved in as much as half of Fe transfer across the basolateral membrane, and that vesicular processes may also play a role in non-apoTf-dependent Fe transport. Studies were initiated to examine potential interactions of other metal ions with Fe(II) via DMT1. Kinetic data showed a single, saturable process for uptake of Fe(II) that was pH dependent and had a Km of 7 microM. An excess of Mn(II) and Cu(I) over Fe(II) of 200: 1 (microM: microM) in 1 mM ascorbate markedly inhibited Fe uptake. The kinetics were not competitive. Km increased and Vmax decreased. We conclude that vesicular transport, involving endo- and exocytosis at both ends of the enterocyte, is a fundamental aspect of intestinal iron absorption and that DMT1 may function as a transporter not just for divalent but also for monovalent metal ions.     

Hematopoietic capacity of preterm cord blood hematopoietic stem/progenitor cells

Full-term cord blood (TCB) hematopoietic stem/progenitor cells (HSC/HPCs) are used for stem cell transplantation and are well characterized. However, the properties of preterm cord blood (PCB) HSC/HPCs remain unclear. In the present study, we compared HSC/HPCs from TCB and PCB with respect to their expression of surface markers, homing capacity and ability to repopulate HSCs in the NOD/Shi-scid mice bone marrow. The proportion of CD34+CD38− cells was significantly higher in PCB. On the other hand, the engraftment rate of TCB CD34+ cells into NOD/Shi-scid mice was significantly higher than PCB CD34+ cells. The expression of VLA4 was stronger among TCB CD34+ cells than PCB CD34+ cells. Moreover, there was a positive correlation between the proportion of CD34+CXCR4+ cells and gestational age. These data suggest that the homing ability of HSCs increases during gestation, so that TCB may be a better source of HSCs for transplantation than PCB.     

Human loss-of-function gonadotropin-releasing hormone receptor mutants retain wild-type receptors in the endoplasmic reticulum: molecular basis of the dominant-negative effect

The GnRH receptor (GnRHR) is a heptahelical G protein-coupled receptor found in the plasma membrane of pituitary gonadotropes. GnRHR mutants isolated from patients with hypogonadotropic hypogonadism (HH) are frequently mislocalized proteins that can be restored to function by pharmacological chaperones. Nonfunctional HH mutants inhibit ligand binding and ligand-activated second messenger production by wild-type (WT) receptor when both are coexpressed in vitro. In this study, confocal microscopy of fluorescently labeled GnRHR was used to show that the dominant-negative effect, which occurs for human (but not for rodent) GnRHR, results from WT receptor retention in the endoplasmic reticulum by mislocalized mutants. Mutants hGnRHR(E90K), hGnRHR(L266R), and hGnRHR(S168R) were selected for study because they are known to be fully rescuable, partially rescuable, or nonrescuable (respectively) by a specific pharmacological chaperone. This chaperone corrects folding errors and promotes correct intracellular routing. Using this drug we showed that correcting routing of the mutant protein also rescues the WT receptor. Because of the large number of human diseases that appear to be caused by defective protein folding and subsequent mislocalization, it is likely that endoplasmic reticulum retention is a common cause of dominant-negative actions for other diseases involving G protein-coupled receptors, as appears to be the case in HH and for which there exists a potential therapeutic agent.