Hydrostatic Pressure Does Not Cause Detectable Changes in Survival of Human Retinal Ganglion Cells

Purpose

Elevated intraocular pressure (IOP) is a major risk factor for glaucoma. One consequence of raised IOP is that ocular tissues are subjected to increased hydrostatic pressure (HP). The effect of raised HP on stress pathway signaling and retinal ganglion cell (RGC) survival in the human retina was investigated.

Methods

A chamber was designed to expose cells to increased HP (constant and fluctuating). Accurate pressure control (10-100mmHg) was achieved using mass flow controllers. Human organotypic retinal cultures (HORCs) from donor eyes (<24h post mortem) were cultured in serum-free DMEM/HamF12. Increased HP was compared to simulated ischemia (oxygen glucose deprivation, OGD). Cell death and apoptosis were measured by LDH and TUNEL assays, RGC marker expression by qRT-PCR (THY-1) and RGC number by immunohistochemistry (NeuN). Activated p38 and JNK were detected by Western blot.

Results

Exposure of HORCs to constant (60mmHg) or fluctuating (10-100mmHg; 1 cycle/min) pressure for 24 or 48h caused no loss of structural integrity, LDH release, decrease in RGC marker expression (THY-1) or loss of RGCs compared with controls. In addition, there was no increase in TUNEL-positive NeuN-labelled cells at either time-point indicating no increase in apoptosis of RGCs. OGD increased apoptosis, reduced RGC marker expression and RGC number and caused elevated LDH release at 24h. p38 and JNK phosphorylation remained unchanged in HORCs exposed to fluctuating pressure (10-100mmHg; 1 cycle/min) for 15, 30, 60 and 90min durations, whereas OGD (3h) increased activation of p38 and JNK, remaining elevated for 90min post-OGD.

Conclusions

Directly applied HP had no detectable impact on RGC survival and stress-signalling in HORCs. Simulated ischemia, however, activated stress pathways and caused RGC death. These results show that direct HP does not cause degeneration of RGCs in the ex vivo human retina.     

Dose-Dependent Metabolic Alterations in Human Cells Exposed to Gamma Irradiation

Radiation exposure is a threat to public health because it causes many diseases, such as cancers and birth defects, due to genetic modification of cells. Compared with the past, a greater number of people are more frequently exposed to higher levels of radioactivity today, not least due to the increased use of diagnostic and therapeutic radiation-emitting devices. In this study, ultra-performance liquid chromatography-quadrupole time-of-flight mass spectrometry (UPLC-QTOF-MS)-based metabolic profiling was used to investigate radiation- induced metabolic changes in human fibroblasts. After exposure to 1 and 5 Gy of γ-radiation, the irradiated fibroblasts were harvested at 24, 48, and 72 h and subjected to global metabolite profiling analysis. Mass spectral peaks of cell extracts were analyzed by pattern recognition using principal component analysis (PCA) and partial least squares-discriminant analysis (PLS-DA). The results showed that the cells irradiated with 1 Gy returned to control levels at 72 h post radiation, whereas cells irradiated with 5 Gy were quite unlike the controls; therefore, cells irradiated with 1 Gy had recovered, whereas those irradiated with 5 Gy had not. Lipid and amino acid levels increased after the higher-level radiation, indicating degradation of membranes and proteins. These results suggest that MS-based metabolite profiling of γ-radiation-exposed human cells provides insight into the global metabolic alterations in these cells.     

Taurocholic Acid Does Not Induce Apoptosis in HCT116 Cells Regardless of Its Intracellular Concentration

Hydrophobic bile acids but not hydrophilic bile acids induce apoptosis in HCT116 cells. We expressed sodium-dependent bile acid transporters in HCT116 cells, and the intracellular concentration of hydrophilic bile acids increased to that of the hydrophobic bile acids. But no sign of apoptosis was observed, which suggests a hydrophobic-bile acid-specific mechanism for the induction of apoptosis in HCT116 cells.     

Diethylstilboestrol Exposure Does Not Reduce Testosterone Production in Human Fetal Testis Xenografts

In rodents, in utero exposure to exogenous estrogens including diethylstilboestrol (DES) results in major suppression of steroidogenesis in fetal testes. Whether similar effects occur in the human fetal testis is equivocal. Based on the results of the rodent studies, we hypothesised that exposure of human fetal testes to DES would result in a reduction in testosterone production. We show, using a xenograft approach, that testosterone production is not reduced in human fetal testis following DES exposure. Human fetal testes (15–19 weeks’ gestation, n = 6) were xenografted into castrate male nude mice which were then treated for 35 days with vehicle or 100 µg/kg DES three times a week. For comparison, similar treatment was applied to pregnant rats from e13.5–e20.5 and effects on fetal testes evaluated at e21.5. Xenograft testosterone production was assessed by measuring host seminal vesicle (SV) weights as an indirect measure over the entire grafting period, and single measurement of serum testosterone at termination. Human fetal testis xenografts showed similar survival in DES and vehicle-exposed hosts. SV weight (44.3 v 26.6 mg, p = 0.01) was significantly increased in DES compared to vehicle-exposed hosts, respectively, indicating an overall increase in xenograft testosterone production over the grafting period, whilst serum testosterone at termination was unchanged. In contrast intra-testicular testosterone levels were reduced by 89%, in fetal rats exposed to DES. In rats, DES effects are mediated via Estrogen Receptor α (ESR1). We determined ESR1 protein and mRNA expression in human and rat fetal testis. ESR1 was expressed in rat, but not in human, fetal Leydig cells. We conclude that human fetal testis exposure to DES does not impair testosterone production as it does in rats, probably because ESR1 is not expressed in human fetal Leydig cells. This indicates that DES exposure is likely to pose minimal risk to masculinization of the human fetus.     

Concomitant Changes in Polyamine Pools and DNA Methylation during Growth Inhibition of Human Colonic Cancer Cells

The effects of CGP 48664 and DFMO, selective inhibitors of the key enzymes of polyamine biosynthesis, namely, ofS-adenosylmethionine decarboxylase (AdoMetDC) and ornithine decarboxylase (ODC), were investigated on growth, polyamine metabolism, and DNA methylation in the Caco-2 cell line. Both inhibitors caused growth inhibition and affected similarly the initial expression of the differentiation marker sucrase. In the presence of the AdoMetDC inhibitor, ODC activity and the intracellular pool of putrescine were enhanced, whereas the spermidine and spermine pools were decreased. In the presence of the ODC inhibitor, the AdoMetDC activity was enhanced and the intracellular pools of putrescine and spermidine were decreased. With both compounds, the degree of global DNA methylation was increased. Spermine and spermidine (but not putrescine) selectively inhibited cytosine–DNA methyltransferase activity. Our observations suggest that spermidine (and to a lesser extent spermine) controls DNA methylation and may represent a crucial step in the regulation of Caco-2 cell growth and differentiation.     

Exposure to GSM RF Fields Does Not Affect Calcium Homeostasis in Human Endothelial Cells,Rat Pheocromocytoma Cells or Rat Hippocampal Neurons

In the course of modern daily life, individuals are exposed to numerous sources of electromagnetic radiation that are not present in the natural environment. The strength of the electromagnetic fields from sources such as hairdryers, computer display units and other electrical devices is modest. However, in many home and office environments, individuals can experience perpetual exposure to an “electromagnetic smog”, with occasional peaks of relatively high electromagnetic field intensity. This has led to concerns that such radiation can affect health. In particular, emissions from mobile phones or mobile phone masts have been invoked as a potential source of pathological electromagnetic radiation. Previous reports have suggested that cellular calcium (Ca²⁺) homeostasis is affected by the types of radiofrequency fields emitted by mobile phones. In the present study, we used a high-throughput imaging platform to monitor putative changes in cellular Ca²⁺ during exposure of cells to 900 MHz GSM fields of differing power (specific absorption rate 0.012–2 W/Kg), thus mimicking the type of radiation emitted by current mobile phone handsets. Data from cells experiencing the 900 Mhz GSM fields were compared with data obtained from paired experiments using continuous wave fields or no field. We employed three cell types (human endothelial cells, PC-12 neuroblastoma and primary hippocampal neurons) that have previously been suggested to be sensitive to radiofrequency fields. Experiments were designed to examine putative effects of radiofrequency fields on resting Ca²⁺, in addition to Ca²⁺ signals evoked by an InsP₃-generating agonist. Furthermore, we examined putative effects of radiofrequency field exposure on Ca²⁺ store emptying and store-operated Ca²⁺ entry following application of the Ca²⁺ATPase inhibitor thapsigargin. Multiple parameters (e.g., peak amplitude, integrated Ca²⁺ signal, recovery rates) were analysed to explore potential impact of radiofrequency field exposure on Ca²⁺ signals. Our data indicate that 900 MHz GSM fields do not affect either basal Ca²⁺ homeostasis or provoked Ca²⁺ signals. Even at the highest field strengths applied, which exceed typical phone exposure levels, we did not observe any changes in cellular Ca²⁺ signals. We conclude that under the conditions employed in our experiments, and using a highly-sensitive assay, we could not detect any consequence of RF exposure.     

Two Forms of Repair of DNA in Mammalian Cells following Irradiation

When Chinese hamster cells are lysed on top of an alkaline sucrose gradient, in time a fairly discrete DNA-containing molecular species is released from an apparently more complex material. Small doses of X-radiation speed the resolution of this complex while large doses degrade the material released from it. Incubation after irradiation reverses both effects.     

Aberrant DNA Methylation in ES Cells

Both mouse and human embryonic stem cells can be differentiated in vitro to produce a variety of somatic cell types. Using a new developmental tracing approach, we show that these cells are subject to massive aberrant CpG island de novo methylation that is exacerbated by differentiation in vitro. Bioinformatics analysis indicates that there are two distinct forms of abnormal de novo methylation, global as opposed to targeted, and in each case the resulting pattern is determined by molecular rules correlated with local pre-existing histone modification profiles. Since much of the abnormal methylation generated in vitro appears to be stably maintained, this modification may inhibit normal differentiation and could predispose to cancer if cells are used for replacement therapy. Excess CpG island methylation is also observed in normal placenta, suggesting that this process may be governed by an inherent program.     

Changes in the Chromosome Complements of Cells of Vicia faba Roots following Irradiation

1. Primary roots of Vicia faba were irradiate after one day'sgermination. The X-ray dose was 620 r 2. Cells with changed chromosome complements appeared in lateralroots. It is inferred that these cells are descended from cellsdamaged by irradiation; chromosome breakage was seen in thefirst mitoses in the irradiated roots but was not scored. 3. Six types of chromosomal rearrangements were found. One typehad been reported previously in primary roots of V. faba afterX-raying. 4. The new complements appear to be stable because they occurseveral cells of a lateral. Affected laterals could containup to five new complements. The primordium of such a lateralmust have consisted of five changed and at least one normalcell. It had previously been suggested that a root of Viciahad three or four initial cells. 5. The survival of the cells with changed complements is notdue solely to successful competition with, not to support by,normal cells, otherwise other types of changes should also havebeen found. 6. It is suggest that the changes found were perpetuated becausethey were induced in initial cells of the primary root, andthat cells in which they were present beca,e part of the primordialand continued as initial cells in apical meristems of lateralroots. 7. Apical cells appear to have a lower sensitivity than othermeristematic cells, so providing, after treatment, a reservoirof normal cells from which regeneration can occur.     

Replication-Defective Adenovirus Vectors with Multiple Deletions Do Not Induce Measurable Vector-Specific T Cells in Human Trials

The magnitude and character of adenovirus serotype 5 (Ad5)-specific T cells were determined in volunteers with and without preexisting neutralizing antibodies (NAs) to Ad5 who received replication-defective Ad5 (rAd5)-based human immunodeficiency virus vaccines. There was no correlation between T-cell responses and NAs to Ad5. There was no increase in magnitude or activation state of Ad5-specific CD4⁺ T cells at time points where antibodies to Ad5 and T-cell responses to the recombinant gene products could be measured. These data indicate that rAd5-based vaccines containing deletions in the E1, E3, and E4 regions do not induce appreciable expansion of vector-specific CD4⁺ T cells.Replication-defective adenoviruses (rAd) have been engineered to provide high levels of expression of foreign inserts with minimum expression of adenovirus proteins, making them excellent candidates for vaccine and gene therapy applications (3, 16). Despite promising immunogenicity, a prophylactic vaccine trial of a serotype 5 rAd (rAd5) vector expressing human immunodeficiency virus (HIV) Gag, Pol, and Nef genes (Step trial) was recently halted due to an increase in HIV infections among volunteers who had preexisting neutralizing antibodies (NAs) to Ad5 (7). This finding raises the possibility that the presence of Ad5-specific T-cell responses (specifically CD4⁺ T-cell responses) in subjects with preexisting Ad5 NAs could be boosted by rAd5 vaccines, thereby providing an expanded susceptible target cell population that could be more easily infected by HIV. If this mechanism were operative, it would have broad implications for the future use of rAd viruses, and indeed other virus vectors, as vaccines or therapeutic agents within HIV-susceptible populations (2, 12, 15). We therefore measured the frequency, magnitude, and activation status of rAd5-specific T cells in HIV-uninfected volunteers who had received rAd5-based HIV vaccines in the presence or absence of preexisting NAs to Ad5.We studied 31 volunteers enrolled in two NIAID Institutional Review Board-approved phase I clinical trials of rAd5-based HIV vaccines. VRC 006 was a dose escalation study evaluating a single inoculation of a rAd5 mixture expressing EnvA, EnvB, EnvC, and fusion protein Gag/PolB at 10⁹, 10¹⁰, and 10¹¹ total particle units (10). VRC 008 evaluated DNA priming by needle and syringe or Biojector, followed by rAd5 boosting. Both studies enrolled healthy, HIV-uninfected adults; used the same rAd5 products; and evaluated immunogenicity on the day of and 4 weeks after rAd5 immunization. Both of these trials involved rAd5 products that contained deletions in the E1, E3, and E4 regions (8, 10).NAs to Ad5 were determined for all volunteers as previously described (19). A 90% NA titer of 12 or more was considered positive and taken as evidence of preexisting humoral immunity to Ad5. Volunteers were chosen for assessment of Ad5-specific T-cell responses based upon the availability of peripheral blood mononuclear cell samples at key time points and the presence or absence of preexisting NAs to Ad5. Only volunteers who received the vaccine (not the placebo) were included. Table ​Table11 lists the volunteers who were tested for Ad5-specific T-cell responses and their NA titers to Ad5 before and after rAd5 vaccination. All volunteers, except for one (volunteer 12) who had a less-than-maximum NA titer to Ad5 before vaccination, had an increase in titer by 4 weeks after vaccination, indicating the successful “take” of the rAd5-based vaccine. There was no correlation between rAd5 dose and increase in Ad5 NA titer.

TABLE 1.

Ad5 serostatus before and after vaccination

CFTR Channels Expressed in CHO Cells Do Not Have Detectable ATP Conductance

The cystic fibrosis transmembrane conductance regulator (CFTR) is a cAMP-activated, ATP-dependent chloride channel which may have additional functions. Recent reports that CFTR mediates substantial electrodiffusion of ATP from epithelial cells have led to the proposal that CFTR regulates other ion channels through an autocrine mechanism involving ATP. The aim of this study was to determine the ATP conductance of wild-type CFTR channels stably expressed in Chinese hamster ovary cells using patch clamp techniques. In the cell-attached configuration with 100 mm Mg · ATP or Tris · ATP solution in the pipette and 140 mm NaCl in the bath, exposing cells to forskolin caused the activation of a low-conductance channel having kinetics resembling those of CFTR. Single channel currents were negative at the resting membrane potential (V _m ), consistent with net diffusion of Cl from the cell into the pipette. The transitions decreased in amplitude, but did not reverse direction, as V _m was clamped at increasingly positive potentials to enhance the driving force for inward ATP flow (>+80 mV). In excised patches, single channel currents did not reverse under essentially biionic conditions (Cl_in/ATP_out or ATP_in/Cl_out), although PKA-activated currents were clearly visible in the same patches at voltages where they would be carried by chloride ions. Moreover, with NaCl solution in the bath and a mixture of ATP and Cl in the pipette, the single channel I/V curve reversed at the predicted equilibrium potential for chloride. CFTR channel currents disappeared when patches were exposed to symmetrical ATP solutions and were restored by reexposure to Cl solution. Finally, in the whole-cell configuration with NaCl in the bath and 100 mm MgATP or TrisATP in the pipette, cAMP-stimulated cells had time-independent, outwardly rectifying currents consistent with CFTR selectivity for external Cl over internal ATP. Whole-cell currents reversed near V _m =−55 mV under these conditions, however the whole cell resistance measured at −100 mV was comparable to that of the gigaohm seal between the plasma membrane and glass pipette (7 GΩ). We conclude that CFTR does not mediate detectable electrodiffusion of ATP. Received: 8 November 1995/Revised: 23 January 1996     

Comparison of Methods for Quantification of Global DNA Methylation in Human Cells and Tissues

DNA methylation is a key epigenetic modification which, in mammals, occurs mainly at CpG dinucleotides. Most of the CpG methylation in the genome is found in repetitive regions, rich in dormant transposons and endogenous retroviruses. Global DNA hypomethylation, which is a common feature of several conditions such as ageing and cancer, can cause the undesirable activation of dormant repeat elements and lead to altered expression of associated genes. DNA hypomethylation can cause genomic instability and may contribute to mutations and chromosomal recombinations. Various approaches for quantification of global DNA methylation are widely used. Several of these approaches measure a surrogate for total genomic methyl cytosine and there is uncertainty about the comparability of these methods. Here we have applied 3 different approaches (luminometric methylation assay, pyrosequencing of the methylation status of the Alu repeat element and of the LINE1 repeat element) for estimating global DNA methylation in the same human cell and tissue samples and have compared these estimates with the “gold standard” of methyl cytosine quantification by HPLC. Next to HPLC, the LINE1 approach shows the smallest variation between samples, followed by Alu. Pearson correlations and Bland-Altman analyses confirmed that global DNA methylation estimates obtained via the LINE1 approach corresponded best with HPLC-based measurements. Although, we did not find compelling evidence that the gold standard measurement by HPLC could be substituted with confidence by any of the surrogate assays for detecting global DNA methylation investigated here, the LINE1 assay seems likely to be an acceptable surrogate in many cases.