Dominant hemimelia andEn-1on mouse chromosome 1 are not allelic

Previous studies have shown thatEn-1, a homeobox-containing gene, maps close to or at theDhlocus in the mouse. Since homeobox-containing genes are key genes in the control of development the close proximity ofEn-1to the developmentally significant geneDhraised the possibility that theDhmutation represented a mutant allele ofEn-1. A genetic analysis involvingEn-1,Dh, and other chromosome 1 markers (Emv-17,InandPep-3) shows that althoughDhandEn-1are closely linked they are separable by recombination (4/563). The likely gene order and recombination frequencies of these loci are: In (5.2±0.9)Emv-17(1.1±0.4) Dh (0.7±0.4)En-1(3.0±0.7) Pep-3. This shows thatDhis not a mutant allele ofEn-1.

Alterations in oestrogen metabolism: implications for higher penetrance of familial pulmonary arterial hypertension in females

Mutations in bone morphogenetic protein receptor type 2 (BMPR2) cause familial pulmonary arterial hypertension (FPAH), but the penetrance is reduced and females are significantly overrepresented. In addition, gene expression data implicating the oestrogen-metabolising enzyme CYP1B1 suggests a detrimental role of oestrogens or oestrogen metabolites. We examined genetic and metabolic markers of altered oestrogen metabolism in subjects with a BMPR2 mutation. Genotypes for CYP1B1 Asn453Ser (N453S) were determined for 140 BMPR2 mutation carriers (86 females and 54 males). Nested from those subjects, a case-control study of urinary oestrogen metabolite levels (2-hydroxyoestrogen (2-OHE) and 16alpha-hydroxyoestrone (16alpha-OHE(1))) was conducted in females (five affected mutation carriers versus six unaffected mutation carriers). Among females, there was four-fold higher penetrance among subjects homozygous for the wild-type genotype (N/N) than those with N/S or S/S genotypes (p = 0.005). Consistent with this finding, the 2-OHE/16alpha-OHE(1) ratio was 2.3-fold lower in affected mutation carriers compared to unaffected mutation carriers (p = 0.006). Our findings suggest that variations in oestrogens and oestrogen metabolism modify FPAH risk. Further investigation of the role of oestrogens in this disease with profound sex bias may yield new insights and, perhaps, therapeutic interventions.

Activation of heat shock and antioxidant responses by the natural product celastrol: transcriptional signatures of a thiol-targeted molecule

Stress response pathways allow cells to sense and respond to environmental changes and adverse pathophysiological states. Pharmacological modulation of cellular stress pathways has implications in the treatment of human diseases, including neurodegenerative disorders, cardiovascular disease, and cancer. The quinone methide triterpene celastrol, derived from a traditional Chinese medicinal herb, has numerous pharmacological properties, and it is a potent activator of the mammalian heat shock transcription factor HSF1. However, its mode of action and spectrum of cellular targets are poorly understood. We show here that celastrol activates Hsf1 in Saccharomyces cerevisiae at a similar effective concentration seen in mammalian cells. Transcriptional profiling revealed that celastrol treatment induces a battery of oxidant defense genes in addition to heat shock genes. Celastrol activated the yeast Yap1 oxidant defense transcription factor via the carboxy-terminal redox center that responds to electrophilic compounds. Antioxidant response genes were likewise induced in mammalian cells, demonstrating that the activation of two major cell stress pathways by celastrol is conserved. We report that celastrol's biological effects, including inhibition of glucocorticoid receptor activity, can be blocked by the addition of excess free thiol, suggesting a chemical mechanism for biological activity based on modification of key reactive thiols by this natural product.

Older adults with cognitive complaints show brain atrophy similar to that of amnestic MCI

OBJECTIVE

To examine the neural basis of cognitive complaints in healthy older adults in the absence of memory impairment and to determine whether there are medial temporal lobe (MTL) gray matter (GM) changes as reported in Alzheimer disease (AD) and amnestic mild cognitive impairment (MCI).

METHODS

Participants were 40 euthymic individuals with cognitive complaints (CCs) who had normal neuropsychological test performance. The authors compared their structural brain MRI scans to those of 40 patients with amnestic MCI and 40 healthy controls (HCs) using voxel-based morphometry and hippocampal volume analysis.

RESULTS

The CC and MCI groups showed similar patterns of decreased GM relative to the HC group on whole brain analysis, with differences evident in the MTL, frontotemporal, and other neocortical regions. The degree of GM loss was associated with extent of both memory complaints and performance deficits. Manually segmented hippocampal volumes, adjusted for age and intracranial volume, were significantly reduced only in the MCI group, with the CC group showing an intermediate level.

CONCLUSIONS

Cognitive complaints in older adults may indicate underlying neurodegenerative changes even when unaccompanied by deficits on formal testing. The cognitive complaint group may represent a pre-mild cognitive impairment stage and may provide an earlier therapeutic opportunity than mild cognitive impairment. MRI analysis approaches incorporating signal intensity may have greater sensitivity in early preclinical stages than volumetric methods.

Alterations in Gene Expression Induced by the Lipid Peroxidation Product, 4-Hydroxy-2-nonenal

Reactive intermediates produced during oxidative stress are believed to contribute to the development and progression of a variety of age-related diseases. 4-hydroxy-2-nonenal (HNE), an abundant product of polyunsaturated fatty acid oxidation and decomposition, reacts extensively with DNA and proteins, depletes intracellular glutathione, and alters many cell signaling cascades, including those regulating apoptosis. Using microarray technology, global changes in gene expression were monitored temporally at subcytotoxic and cytotoxic HNE doses in RKO human colorectal carcinoma cells, with the highest level of changes being observed at cytotoxic doses. Gene expression alterations were confirmed using real-time reverse transcription polymerase chain reaction, Western blotting, and transcription factor reporter profiling. Significant alterations were observed in genes regulated by the antioxidant, heat shock, ER stress, and nutrient deprivation responses. Our results demonstrate that HNE simultaneously affects multiple stress signaling pathways, many of which represent potential mechanisms through which HNE alters cellular viability and response to damage.

Modulation of DNA fragmentation factor 40 nuclease activity by poly(ADP-ribose) polymerase-1

Poly(ADP-ribose) polymerase-1 (PARP-1) influences numerous cellular processes, including DNA repair, transcriptional regulation, and caspase-independent cell death, by utilizing NAD(+) to synthesize long chains of poly(ADP-ribose) (PAR) on target proteins, including itself. During the apoptotic response, caspases-3 and -7 cleave PARP-1, thereby inhibiting its activity. Here, we have examined the role of PARP-1 activation and cleavage in the latter stages of apoptosis in response to DNA fragmentation. PARP-1 poly(ADP-ribosyl)ation correlated directly with induction of apoptosis by the lipid peroxidation product, 4-hydroxy-2-nonenal. A significant decrease in PAR accumulation was observed upon caspase or DNA fragmentation factor 40 (DFF40) inhibition. Because DNA fragmentation mediated by DFF40 augmented PARP-1 modification status in apoptotic cells, we hypothesized that PARP-1 alters DFF40 function following PAR accumulation. Indeed, PARP-1, in the presence of NAD(+), significantly decreased DFF40 activity on plasmid substrates. Conversely, PARP-1 enhanced the DNase activity of DFF40 in the absence of NAD(+). The inhibition of DFF40 activity in the presence of NAD(+) was reduced by co-incubation with poly(ADP-ribose) glycohydrolase and a PARP inhibitor. Additionally, caspase-cleaved PARP-1, in the presence of NAD(+), did not inhibit DFF40 activity significantly. Our results suggest that PARP-1 poly(ADP-ribosyl)ation is a terminal event in the apoptotic response that occurs in response to DNA fragmentation and directly influences DFF40 activity.

Immunolocalisation of leukaemia inhibitory factor in the cornea

AIM

Leukaemia inhibitory factor (LIF) is a pleotrophic cytokine expressed in a variety of cell types, and have shown to regulate stem cell proliferation, vascular genesis, inflammation, and immunity in various locations. Expression of LIF and its role in the cornea have not been studied previously. In this study, we examined the expression of LIF in the cornea.

MATERIALS AND METHOD

Immunohistochemistry was performed using polyclonal LIF antibodies, and Avidin-Biotin ABC complex on cultured human corneal epithelium corneal fibroblasts and wild-type murine corneal epithelium.

RESULTS

LIF was detected in the cytoplasm of murine corneal epithelium, cultured human corneal epithelium, and fibroblasts. The expression of LIF was mainly cytoplasmic.

CONCLUSION

LIF is expressed in the corneal epithelium and fibroblasts. It may have an important role in the maintenance of homeostasis of the corneal epithelium and cornea stroma. Further studies are necessary to elucidate the role of LIF in the cornea.

Validity of the 21-OH/LacZ transgenic mouse as a model for studying adrenocortical cell lineage

Mosaic beta-galactosidase reporter staining patterns in the adult adrenal cortex of 21-OH/LacZ transgenic mice were compared to those observed in mouse chimeras and X-inactivation mosaics, which are known to have a lineage basis. This revealed similar patterns of blue and white radial stripes in all three experimental groups. Each blue stripe may contain one or more blue coherent clones of cells but this was taken into account by correcting the observed stripe numbers for the effects of different proportions of LacZ-positive (blue) and LacZ-negative (unstained) cells between adrenals. The corrected stripe numbers were similar in all three experimental groups, which supports the hypothesis that the stripes in the adrenals of 21-OH/LacZ transgenic mice are formed in a similar way to those in chimeras and X-inactivation mosaics (i.e., they have a lineage basis). This suggests that the 21-OH/LacZ transgenic mouse is likely to be a valid model for studying steroidogenic cell lineage in the adrenal cortex, thereby providing additional support for the centripetal migration hypothesis of adrenocortical cytogenesis.

Induction of Apoptosis in Colorectal Carcinoma Cells Treated with 4-Hydroxy-2-nonenal and Structurally Related Aldehydic Products of Lipid Peroxidation

The oxidation of polyunsaturated fatty acids during oxidative stress gives rise to a series of toxic alpha,beta-unsaturated aldehydes, including the electrophile 4-hydroxy-2-nonenal (4-HNE) and the related aldehydes, 4-hydroperoxy-2-nonenal (4-HPNE) and 4-oxo-2-nonenal (4-ONE). We synthesized these compounds, as well as the resolved enantiomers of 4-HNE, and compared their toxicities and apoptotic responses in the human colorectal cancer cell line RKO. All of these molecules execute similar death responses at comparable doses over almost identical time frames in RKO cells. The apoptotic response induced by 4-HPNE, 4-ONE, and 4-HNE enantiomers involves activation of caspases, proteolysis of downstream caspase targets, and nucleosomal DNA fragmentation. The results presented herein suggest that these molecules commonly activate certain signaling pathways that control cell death irrespective of their reactive properties.

Survival and normal function of glycolysis-deficient mouse oocytes

Mouse embryos homozygous for a null allele of Gpi1 which encodes the glycolytic enzyme glucose phosphate isomerase fail to complete gastrulation and die at about embryonic day 7.5, but mutant cells can survive in fetal chimaeras in which they are mixed with wild-type cells. An adult female mouse chimaera, composed of wild-type cells and homozygous Gpi1(-/-) null mutant cells, was produced to test whether the presence of wild-type cells in the ovary allowed mutant oocytes to survive and function. This mouse produced 28 offspring, eight of which were derived from homozygous Gpi1(-/-) null oocytes. DNA in situ hybridization also showed that some Gpi1(-/-) follicle cells were able to survive in chimaeric ovarian follicles. It is likely that the survival of mutant follicle cells and fully functional mutant oocytes was mediated by the presence of wild-type cells that could provide metabolic intermediates and so bypass the block in the glycolytic pathway. Wild-type cumulus cells probably supported the growing GPI-deficient oocytes via metabolic co-operation, by passing ATP and other glycolytic products through gap junctions. It was concluded that female mouse germ cells and ovarian follicle cells do not need an intact endogenous glycolytic pathway if they can obtain appropriate metabolites from an exogenous source.

Size regulation does not cause the composition of mouse chimaeras to become unbalanced

Mouse chimaeras made by aggregating two 8-cell stage embryos undergo size regulation shortly after implantation. Thus chimaeric pups are approximately normal size at birth despite their origin from two complete embryos. Chimaeras of some strain combinations are genotypically unbalanced such that cells of one strain almost always predominate. For example, the BALB/c inbred strain often makes a low contribution to chimaeras. This genotypic imbalance in the composition could arise by selection against BALB/c cells. Selection may be particularly acute at the time of size regulation. To investigate if the mechanism(s) responsible for size regulation could cause the low contribution of BALB/c cells, we compared the composition of an unbalanced series of chimaeras, produced by aggregating two complete 8-cell stage embryos, with a similar series of chimaeras made by aggregating two half 8-cell stage embryos. In each case the unbalanced strain combination was BALB/c<-->[(C57BL x CBA/Ca)F1 x TGB] and parallel studies were undertaken with a genotypically balanced strain combination. For each chimaera, the composition of the fetus, placenta and extraembryonic membranes were determined at E12.5. When two half embryos were aggregated the BALB/c strain still made a poor contribution to all the tissues of the mid-gestation conceptus. This implies that this strain combination remained unbalanced even when size regulation was absent or minimal. Therefore, size regulation did not play a major role in reducing the contribution of BALB/c cells and producing the phenotypic imbalance in the chimaeras.

Primary defects in the lens underlie complex anterior segment abnormalities of the Pax6 heterozygous eye

We describe lens defects in heterozygous small eye mice, and autonomous deficiencies of Pax6(+/-) cells in the developing lens of Pax6(+/+) <--> Pax6(+/-) chimeras. Two separate defects of the lens were identified by analyzing the distribution of heterozygous cells in chimeras: Pax6(+/-) cells are less readily incorporated into the lens placode than wild type, and those that are incorporated into the lens are not maintained efficiently in the proliferating lens epithelium. The lens of chimeric eyes is, therefore, predominantly wild type from embryonic day 16.5 onwards, whereas heterozygous cells contribute normally to all other eye tissues. Eye size and defects of the iris and cornea are corrected in fetal and adult chimeras with up to 80% mutant cells. Therefore, these aspects of the phenotype may be secondary consequences of primary defects in the lens, which has clinical relevance for the human aniridia (PAX6(+/-)) phenotype.

The role of the microscope in 21st century endodontics: visions of a new frontier

In endodontics, the microscope is indispensable. Clinicians are discovering that every facet of endodontics is better, safer, and easier. Microscopic endodontics is a new technology that emphasizes visual information, rather than tactile information. The learning curve can be fairly steep, but it is one worth climbing. Future controlled studies should document an improvement of endodontic outcomes. This is becoming more true as dentistry becomes more extensive and expensive, and needs to last longer and longer. The days of "easy cases" are much fewer, even for the general practitioner. Lastly, there is a groundswell conversation, at least in the endodontic community, that the benefits of the microscope are beyond biology. Clinicians experience a greater sense of personal and professional fulfillment because they are not achieving what is "good enough," but aspiring to "what is possible."

The effects of embryo stage and cell number on the composition of mouse aggregation chimaeras

Studies with intact preimplantation mouse embryos and some types of chimaeric aggregates have shown that the most advanced cells are preferentially allocated to the inner cell mass (ICM) rather than the trophectoderm. Thus, differences between 4-cell and 8-cell stage embryos could contribute to the tendency for tetraploid cells to colonise the trophectoderm more readily than the ICM in 4-cell tetraploid<-->8 cell diploid chimaeras. The aim of the present study was to test whether 4-cell stage embryos in 4-cell diploid<-->8-cell diploid aggregates contributed equally to all lineages present in the E12.5 conceptus. These chimaeras were compared with those produced from standard aggregates of two whole 8-cell embryos and aggregates of half an 8-cell embryo with a whole 8-cell embryo. As expected, the overall contribution of 4-cell embryos was lower than that of 8-cell embryos and similar to that of half 8-cell stage embryos. In the 4-cell<-->8-cell chimaeras the 4-cell stage embryos did not contribute more to the trophectoderm than the ICM derivatives. Thus, differences between 4-cell and 8-cell embryos cannot explain the restricted tissue distribution of tetraploid cells previously reported for 4-cell tetraploid<-->8-cell diploid chimaeras. It is suggested that cells from the more advanced embryo are more likely to contribute to the ICM but, for technical reasons, are prevented from doing so in simple aggregates of equal numbers of whole 4-cell and whole 8-cell stage embryos.

Failure of founder transgenic male mice to transmit an attenuated HSV thymidine kinase transgene results from mosaicism and sperm competition

Previously we found that male mice carrying either of two attenuated herpes simplex virus thymidine kinase reporter transgenes displayed low level ectopic expression of the reporter gene in the testis and, although fertile, exhibited reduced fecundity. In contrast to males of later generations, many of the founder males failed to transmit the transgene to their progeny. This led to the suggestion that these fertile non-transmitting males are mosaic, with the sperm developing from the non-transgenic lineage outperforming those from the heterozygous transgenic lineage. Here we present the results of artificial insemination (AI) and in vitro fertilization (IVF) experiments designed to test this hypothesis. Albino CF(1) hybrid females were inseminated with mixtures of equal numbers of sperm from heterozygous transgenic (HT) males (equivalent to C57BL/6 x CBAF(2)) and CF(1) males. Similar mixed inseminations were carried out in parallel with sperm from non-transgenic (NT) siblings of the HT mice and 13-day fetuses were scored by eye color to determine their paternity. The pooled data from five experiments gave ratios of CF(1) to HT and CF(1) to NT offspring of 8.13 and 0.22 respectively, implying a calculated HT to NT ratio of 0.027. This indicates that, in competition with each other, the NT sperm would be almost 40 times more successful in fertilization than the HT sperm. Smaller differences were observed between HT and NT when AI was performed with unmixed sperm, consistent with the fertility of HT non-founder males. However, in five IVF experiments carried out with unmixed sperm, 142/212 oocytes exposed to NT sperm were activated and divided, while only 8/226 oocytes treated with HT sperm reached the two-cell stage. This confirms that HT sperm are defective and indicates that the IVF method employed amplified these deficiencies, which may have only a small effect upon natural reproduction when the HT sperm are not in competition with normal sperm.

Different roles for Pax6 in the optic vesicle and facial epithelium mediate early morphogenesis of the murine eye

Chimaeric mice were made by aggregating Pax6(−/−) and wild-type mouse embryos, in order to study the interaction between the optic vesicle and the prospective lens epithelium during early stages of eye development. Histological analysis of the distribution of homozygous mutant cells in the chimaeras showed that the cell-autonomous removal of Pax6(−/−) cells from the lens, shown previously at E12.5, is nearly complete by E9.5. Most mutant cells are eliminated from an area of facial epithelium wider than, but including, the developing lens placode. This result suggests a role for Pax6 in maintaining a region of the facial epithelium that has the tissue competence to undergo lens differentiation. Segregation of wild-type and Pax6(−/−) cells occurs in the optic vesicle at E9.5 and is most likely a result of different adhesive properties of wild-type and mutant cells. Also, proximo-distal specification of the optic vesicle (as assayed by the elimination of Pax6(−/−) cells distally), is disrupted in the presence of a high proportion of mutant cells. This suggests that Pax6 operates during the establishment of patterning along the proximo-distal axis of the vesicle. Examination of chimaeras with a high proportion of mutant cells showed that Pax6 is required in the optic vesicle for maintenance of contact with the overlying lens epithelium. This may explain why Pax6(−/−) optic vesicles are inefficient at inducing a lens placode. Contact is preferentially maintained when the lens epithelium is also wild-type. Together, these results demonstrate requirements for functional Pax6 in both the optic vesicle and surface epithelia in order to mediate the interactions between the two tissues during the earliest stages of eye development.