Developmental expression of CREB1 and NFATC2 in pig embryos.

BACKGROUND: The CREB1 gene encodes the cAMP response element binding protein 1 (CREB1), a leucine zipper transcription factor that regulates cellular gene expression in response to elevated levels of intracellular cAMP. When activated by phosphorylation, CREB1 binds to the cAMP response element (CRE) of the promoters of its target genes. CREB1 is an essential component in many physiological processes, and its function is correlated to neurodevelopment, plasticity and cell survival, and learning and memory. The NFATC2 gene codes for the nuclear factor of activated T-cells 2 protein. The NFATC2 protein is a DNA-binding protein that functions as an inducer of gene transcription during immune response. METHODS AND RESULTS: The aim of the present study was to examine the developmental expression of porcine CREB1 and NFACT2 transcripts. The expression of CREB1 and NFACT2 mRNA was examined by quantitative real-time RT-PCR. For the CREB1 transcript, we found significant reduction in transcript levels in the brain stem and basal ganglia during porcine embryo development, determined from day 60 to day 115 of gestation. In contrast, a significant increase in CREB1 mRNA was detected in the lungs during embryo development. No significant changes in the NFATC2 transcript were detected in porcine brain tissue during embryo development. CONCLUSIONS: Differential CREB1 mRNA expression was found in pig brain tissues during embryo development.

Non-Contact Respiratory Measurement Using a Depth Camera for Elderly People.

Measuring respiration at home for cardiac patients, a simple method that can detect the patient's natural respiration, is needed. The purpose of this study was to develop an algorithm for estimating the tidal volume (TV) and respiratory rate (RR) from the depth value of the chest and/or abdomen, which were captured using a depth camera. The data of two different breathing patterns (normal and deep) were acquired from both the depth camera and the spirometer. The experiment was performed under two different clothing conditions (undressed and wearing a T-shirt). Thirty-nine elderly volunteers (male = 14) were enrolled in the experiment. The TV estimation algorithm for each condition was determined by regression analysis using the volume data from the spirometer as the objective variable and the depth motion data from the depth camera as the explanatory variable. The RR estimation was calculated from the peak interval. The mean absolute relative errors of the estimated TV for males were 14.0% under undressed conditions and 10.7% under T-shirt-wearing conditions; meanwhile, the relative errors for females were 14.7% and 15.5%, respectively. The estimation error for the RR was zero out of a total of 206 breaths under undressed conditions and two out of a total of 218 breaths under T-shirt-wearing conditions for males. Concerning females, the error was three out of a total of 329 breaths under undressed conditions and five out of a total of 344 breaths under T-shirt-wearing conditions. The developed algorithm for RR estimation was accurate enough, but the estimated occasionally TV had large errors, especially in deep breathing. The cause of such errors in TV estimation is presumed to be a result of the whole-body motion and inadequate setting of the measurement area.

α-Synucleins from Animal Species Show Low Fibrillation Propensities and Weak Oligomer Membrane Disruption.

The intrinsically disordered protein α-synuclein (aSN) forms insoluble aggregates in the brains of Parkinson's disease (PD) patients. Cytotoxicity is attributed to a soluble aSN oligomeric species that permeabilizes membranes significantly more than monomers and fibrils. In humans, the A53T mutation induces early onset PD and increases the level of aSN oligomerization and fibrillation propensity, but Thr53 occurs naturally in aSNs of most animals. We compared aSNs from elephant, bowhead whale, and pig with human aSN. While all three animal aSNs showed significantly weakened fibrillation, elephant aSN formed much more oligomer, and pig aSN much less, than human aSN did. However, all animal aSN oligomers showed weakened permeabilization toward anionic lipid vesicles, indicative of decreased cytotoxicity. These animal aSNs share three substitutions compared to human aSN: A53T, G68E, and V95G. We analyzed aggregation and membrane binding of all eight mutants combining these three mutations. While the G68E mutation is particularly important in weakening fibrillation and possible toxicity, the strongest effect is seen when all three mutations are present. Thus, a small number of mutations can significantly decrease aSN toxicity.

A-to-I RNA editing of the IGFBP7 transcript increases during aging in porcine brain tissues.

The IGFBP7 gene encodes insulin-like growth factor protein 7. IGFPB7 is involved in diverse biological functions including cell growth regulation, senescence and apoptosis, and also acts as a tumor suppressor in multiple cancers. The IGFBP7 mRNA is subject to A-to-I RNA editing mediated by adenosine deaminases acting on RNA 1 and 2 (ADAR1 and ADAR2). In the current study we have examined molecular characteristics of the porcine IGFBP7 gene, and determined the mRNA editing in different tissues. The A-to-I RNA editing of human IGFBP7 in positions Arg78 and Lys95 was shown to be conserved in the porcine homologue. In addition, a novel editing site was discovered in position Lys97 in the porcine IGFBP7 transcript. A differential editing was demonstrated at the three positions in the IGFBP7 transcript with very high degrees of editing in frontal cortex, cerebellum and lung. Interestingly, the degree of editing increased during aging in porcine frontal cortex and cerebellum. The IGFBP7 gene was mapped to pig chromosome 8. The porcine IGFBP7 gene was found to be ubiquitously expressed in examined organs and tissues. The methylation status of the IGFBP gene was examined in brain and liver by bisulfate sequencing and a high degree of methylation was found in the two tissues, 52% and 54%, respectively.

Porcine oocyte mtDNA copy number is high or low depending on the donor.

Oocyte capacity is relevant in understanding decreasing female fertility and in the use of assisted reproductive technologies in human and farm animals. Mitochondria are important to the development of a functionally good oocyte and the oocyte mtDNA copy number has been introduced as a useful parameter for prediction of oocyte competence. The aim of this study was to investigate: (i) if the oocyte donor has an influence on its oocyte's mtDNA copy number; and (ii) the relation between oocyte size and mtDNA copy number using pre- and postpubertal pig oocytes. Cumulus-oocyte complexes were collected from individual donor pigs. The oocytes were allocated into different size-groups, snap-frozen and single-oocyte mtDNA copy number was estimated by quantitative real-time PCR using the genes ND1 and COX1. Results showed that mean mtDNA copy number in oocytes from any individual donor could be categorized as either 'high' (≥100,000) or 'low' (<100,000) with no difference in threshold between pre- and postpubertal oocytes. No linear correlation was detected between oocyte size and mtDNA copy number within pre- and postpubertal oocytes. This study demonstrates the importance of the oocyte donor in relation to oocyte mtDNA copy number, irrespectively of the donor's puberty status and the oocyte's growth stage. Observations from this study facilitate both further investigations of the importance of mtDNA copy number and the unravelling of relations between different mitochondrial parameters and oocyte competence.

Impairment mitigation in superchannels with digital backpropagation and MLSD.

We assess numerically the performance of single-carrier digital backpropagation (SC-DBP) and maximum-likelihood sequence detection (MLSD) for DP-QPSK and DP-16QAM superchannel transmission over dispersion uncompensated links for three different cases of spectral shaping: optical pre-filtering of RZ and NRZ spectra, and digital Nyquist filtering. We investigate the limits for carrier proximity of each spectral shaping technique and the correspondent performance behavior of each algorithm, for both modulation formats. For superchannels with carrier spacing close to the Nyquist limit, it is shown that the maximum performance improvement of 1.0 dB in Q(2)-factor is provided by those algorithms. However, such gain can be highly reduced when the order of the modulation format increases.

Cloning and characterization of the porcine DBC1 gene encoding deleted in bladder cancer.

Deleted in bladder cancer 1 (DBC1) is a tumour suppressor which is involved in the regulation of cell growth and programmed cell death. In this study we report the cloning and characterization of porcine DBC1 cDNA. RT-PCR cloning produced a cDNA with an open reading frame of 2,283 bp encoding a polypeptide of 761 amino acids with a predicted molecular mass of 88.6 kDa and estimated isoelectric point of 9.1. The encoded pig DBC1 protein shows a very high amino acid similarity to human (99 %) and to mouse (98 %) DBC1. The porcine DBC1 gene was mapped to chromosome 1. The nucleotide sequence of the promoter displayed a high degree of conservation of elements responsible for neuron-specific expression. The porcine DBC1 gene was found to be highly expressed in brain tissues. The methylation status of the porcine DBC1 gene was examined in brain and liver by bisulfite sequencing. Methylation percentages of 53-61 were observed for the gene body whereas significantly lower values (1-4 %) were found in exon 1 and the promoter sequence of DBC1. The sequences of the porcine DBC1 cDNA and the DBC1 promoter and exon 1 sequence have been submitted to DDBJ/EMBL/GenBank under the accession numbers KF733442 and KJ396193, respectively.

In vitro manipulation techniques of porcine embryos: a meta-analysis related to transfers, pregnancies and piglets.

During the last 17 years, considerable advancements have been achieved in the production of pigs, transgenic and non-transgenic, by methods of somatic cell nuclear transfer, in vitro fertilisation, intracytoplasmic sperm injection, microinjection and sperm-mediated gene transfer by artificial insemination. Therefore, a review of the overall efficiency for the developmental competence of embryos produced by these in vitro methods would be useful in order to obtain a more thorough overview of this growing area with respect to its development and present status. In this review a meta-analysis was used to analyse data collected from all published articles with a focus on zygotes and embryos for transfer, pregnancy, full-term development and piglets born. It was generally concluded that an increasing level of in vitro manipulation of porcine embryos decreased the overall efficiency for production of piglets. The techniques of nuclear transfer have been developed markedly through the increasing number of studies performed, and the results have become more stable. Prolonged in vitro culture period did not lead to any negative effect on nuclear transfer embryos after their transfer and it resulted in a similar or even higher litter size. More complete information is needed in future scientific articles about these in vitro manipulation techniques to establish a more solid basis for the evaluation of their status and to reveal and further investigate any eventual problems.

Framing unauthorized immigrants: the effects of labels on evaluations.

In the U.S. media, unauthorized immigrants are often interchangeably referred to as "illegal aliens," "illegal immigrants," and undocumented immigrants." In spite of formal equivalence, these terms carry different connotations, but the effects of these labels on people's attitudes toward immigrants are not well documented. In this replication study, 274 undergraduate students in psychology responded to one of three randomly distributed versions of a 20-item scale measuring attitudes toward unauthorized immigration. The items in the three scale versions varyingly referred to immigrants using the three terms. Results showed differences in attitudes toward unauthorized immigration between all experimental conditions. The label "illegal immigrants" yielded significantly less positive attitudes compared to the label "undocumented immigrants," and respondents exposed to the label "illegal aliens" showed the most positive attitudes. Furthermore, the effects of the experimental conditions were not moderated by the respondents' patriotism, sex, or own immigrant background.

"Future patient II" telerehabilitation for patients with heart failure: Protocol for a randomized controlled trial.

Background: Heart failure is a global problem affecting millions of people worldwide. Current care of heart failure patients follows standard protocols and often overlooks the patients' specific needs, which leads to low compliance in the rehabilitation phase. Telerehabilitation, where the patients communicate with health care professionals about their rehabilitation program and monitor their vital signs, aims to increase the degree of compliance as well as enhancing their quality of life. Objective: The aim of this study is to investigate whether application of the Future Patient Telerehabilitation Program II can improve the health-related quality of life for patients with heart failure. Methods: A randomized controlled trial will be conducted. A total of 70 patients will be enrolled, 35 in the intervention group, 35 in the control group. The intervention group will follow an add-on to traditional care, while the control group will follow the conventional Danish cardiac rehabilitation program, which is based on periodic visits to the clinic. The patients will be followed for a period of six months. The intervention group will have access to an online HeartPortal and will use various home-based devices for self-monitoring. The primary outcome to be investigated is health-related quality of life as measured by the EuroQol-5 Dimension. Secondary outcomes are the number of visits to the outpatient clinic, number of readmissions and number of tele-communications contacts (phone and video) with health care professionals. The primary and secondary outcomes will be assessed using questionnaires and through the data generated by digital technologies for self-monitoring. Results: Enrolment began in August 2020. The results will be published in peer-reviewed journals. Results from the Future Patient II Telerehabilitation program are expected to be published in 2024. Discussion: This study is a further development of the Future Patient Telerehabilitation I study, and it is expected to explore the use of video consultation and a weight calculator in relation to telerehabilitation as well as the quality of life for heart failure patients. Conclusion: The expected outcomes are increased quality of life, increased number of phone- and video-consultations with health-care professionals, and the enhanced ability of patients to manage their own disease with the use of a calculator for weight.

Pairwise comparisons of ten porcine tissues identify differential transcriptional regulation at the gene, isoform, promoter and transcription start site level.

The transcriptome is the absolute set of transcripts in a tissue or cell at the time of sampling. In this study RNA-Seq is employed to enable the differential analysis of the transcriptome profile for ten porcine tissues in order to evaluate differences between the tissues at the gene and isoform expression level, together with an analysis of variation in transcription start sites, promoter usage, and splicing. Totally, 223 million RNA fragments were sequenced leading to the identification of 59,930 transcribed gene locations and 290,936 transcript variants using Cufflinks with similarity to approximately 13,899 annotated human genes. Pairwise analysis of tissues for differential expression at the gene level showed that the smallest differences were between tissues originating from the porcine brain. Interestingly, the relative level of differential expression at the isoform level did generally not vary between tissue contrasts. Furthermore, analysis of differential promoter usage between tissues, revealed a proportionally higher variation between cerebellum (CBE) versus frontal cortex and cerebellum versus hypothalamus (HYP) than in the remaining comparisons. In addition, the comparison of differential transcription start sites showed that the number of these sites is generally increased in comparisons including hypothalamus in contrast to other pairwise assessments. A comprehensive analysis of one of the tissue contrasts, i.e. cerebellum versus heart for differential variation at the gene, isoform, and transcription start site (TSS), and promoter level showed that several of the genes differed at all four levels. Interestingly, these genes were mainly annotated to the "electron transport chain" and neuronal differentiation, emphasizing that "tissue important" genes are regulated at several levels. Furthermore, our analysis shows that the "across tissue approach" has a promising potential when screening for possible explanations for variations, such as those observed at the gene expression levels.

NK/T-cell lymphoma.

In this case report, a 61-year-old male presented with odynophagia and ulceration in palatum durum after inhalating dust from machinery containing a weak acid. It was at first diagnosed as an acidic ulcer due to two biopsies verifying this. Because of progressing ulceration a third biopsy was taken - this time with the diagnosis extranodal NK/T-cell lymphoma, nasal type. This illustrates the diagnostic challenges of the illness, typically requiring multiple biopsies, and one should have this differential diagnosis in mind in case of progressing ulceration.

Bowhead NEIL1: molecular cloning, characterization, and enzymatic properties.

Nei Like DNA Glycosylase 1 (NEIL1) is a DNA glycosylase, which specifically processes oxidative DNA damage by initiating base excision repair. NEIL1 recognizes and removes bases, primarily oxidized pyrimidines, which have been damaged by endogenous oxidation or exogenous mutagenic agents. NEIL1 functions through a combined glycosylase/AP (apurinic/apyrimidinic)-lyase activity, whereby it cleaves the N-glycosylic bond between the DNA backbone and the damaged base via its glycosylase activity and hydrolysis of the DNA backbone through beta-delta elimination due to its AP-lyase activity. In our study we investigated our hypothesis proposing that the cancer resistance of the bowhead whale can be associated with a better DNA repair with NEIL1 being upregulated or more active. Here, we report the molecular cloning and characterization of three transcript variants of bowhead whale NEIL1 of which two were homologous to human transcripts. In addition, a novel NEIL1 transcript variant was found. A differential expression of NEIL mRNA was detected in bowhead eye, liver, kidney, and muscle. The A-to-I editing of NEIL1 mRNA was shown to be conserved in the bowhead and two adenosines in the 242Lys codon were subjected to editing. A mass spectroscopy analysis of liver and eye tissue failed to demonstrate the existence of a NEIL1 isoform originating from RNA editing. Recombinant bowhead and human NEIL1 were expressed in E. coli and assayed for enzymatic activity. Both bowhead and human recombinant NEIL1 catalyzed, with similar efficiency, the removal of a 5-hydroxyuracil lesion in a DNA bubble structure. Hence, these results do not support our hypothesis but do not refute the hypothesis either.

The role of aging and brain-derived neurotrophic factor signaling in expression of base excision repair genes in the human brain.

DNA damage is a central contributor to the aging process. In the brain, a major threat to the DNA is the considerable amount of reactive oxygen species produced, which can inflict oxidative DNA damage. This type of damage is removed by the base excision repair (BER) pathway, an essential DNA repair mechanism, which contributes to genome stability in the brain. Despite the crucial role of the BER pathway, insights into how this pathway is affected by aging in the human brain and the underlying regulatory mechanisms are very limited. By microarray analysis of four cortical brain regions from humans aged 20-99 years (n = 57), we show that the expression of core BER genes is largely downregulated during aging across brain regions. Moreover, we find that expression of many BER genes correlates positively with the expression of the neurotrophin brain-derived neurotrophic factor (BDNF) in the human brain. In line with this, we identify binding sites for the BDNF-activated transcription factor, cyclic-AMP response element-binding protein (CREB), in the promoter of most BER genes and confirm the ability of BDNF to regulate several BER genes by BDNF treatment of mouse primary hippocampal neurons. Together, these findings uncover the transcriptional landscape of BER genes during aging of the brain and suggest BDNF as an important regulator of BER in the human brain.

Nonlinear impairment compensation using expectation maximization for dispersion managed and unmanaged PDM 16-QAM transmission.

In this paper, we show numerically and experimentally that expectation maximization (EM) algorithm is a powerful tool in combating system impairments such as fibre nonlinearities, inphase and quadrature (I/Q) modulator imperfections and laser linewidth. The EM algorithm is an iterative algorithm that can be used to compensate for the impairments which have an imprint on a signal constellation, i.e. rotation and distortion of the constellation points. The EM is especially effective for combating non-linear phase noise (NLPN). It is because NLPN severely distorts the signal constellation and this can be tracked by the EM. The gain in the nonlinear system tolerance for the system under consideration is shown to be dependent on the transmission scenario. We show experimentally that for a dispersion managed polarization multiplexed 16-QAM system at 14 Gbaud a gain in the nonlinear system tolerance of up to 3 dB can be obtained. For, a dispersion unmanaged system this gain reduces to 0.5 dB.

Characterization of the porcine FBX07 gene: the first step towards generation of a pig model for Parkinsonian pyramidal syndrome.

Parkinsonian pyramidal syndrome, also named pallido-pyramidal syndrome (PKPS), is the combination of early-onset progressive Parkinsonism with pyramidal tract signs. FBXO7, an F-box protein, is a component of modular E3 ubiquitin protein ligases called SCFs (SKP1, cullin, F-box proteins), which functions in phosphorylation-dependent ubiquitination. FBXO7 mutations cause autosomal recessive, early-onset PKPS. Here we report the molecular cloning and characterization of two isoforms of FBXO7 cDNA from pigs. The encoded FBXO7 protein displays a very high homology to human FBXO7 with an amino acid identity of 90%. Phylogenetic analysis demonstrated that porcine FBXO7 is closely related to other mammalian FBXO7 proteins. Furthermore, the genomic structure of the porcine FBXO7 gene was determined. The intron-exon structure is similar to that of the human FBXO7 gene. The promoter sequence for the porcine FBXO7 gene was also identified. A recognition site for miR-301a was found in the 3'UTR region of porcine FBXO7. Investigating the genetic variation in the porcine FBXO7 gene revealed a missense A/G SNP in exon 5. The A/G SNP results in a substitution of an asparagine to a serine residue (N269S). Using a radiation hybrid map the FBXO7 gene was mapped to pig chromosome 5. Real-time quantitative RT-PCR analysis revealed that FBXO7 mRNA is differentially expressed in many tissues and organs, and that FBXO7 transcript can be detected early in embryo development.

Porcine dorfin: molecular cloning of the RNF19 gene, sequence comparison, mapping and expression analysis.

Dorfin, encoded by the RNF19 gene, is a protein containing two RING finger motifs. Dorfin functions as an E3 ubiquitin ligase that interacts with UBE2L3/UBCH7 and UBE2E2/UBCH8, but not other ubiquitin-conjugating enzymes. Dorfin is found expressed in Lewy bodies, neuronal protein inclusions occurring in Parkinson's disease brains. This work reports the cloning and analysis of the porcine (Sus scrofa) homologue of dorfin. The RNF19 cDNA encoding dorfin was amplified by reverse transcriptase polymerase chain reaction (RT-PCR) using oligonucleotide primers derived from in silico sequences. The porcine RNF19 cDNA codes for a protein of 838 amino acids which shows a very high similarity to human (97 %) and mouse (93 %) dorfin. The genomic organization of the porcine RNF19 gene is very similar to its human counterpart. Expression analysis by RT-PCR demonstrated that the porcine RNF19 transcript was observed in all organs and tissues examined, although differentially expressed. The highest expression of RNF19 mRNA was observed in cerebellum, heart, frontal cortex and muscle. RNF19 transcript was detected as early as 60 days of gestation in many different brain areas. Radiation hybrid mapping data indicate that the porcine RNF19 gene maps to chromosome 4 (4p11-p12). This particular map location is fully consistent with the currently known conservation of genome organization between human and pig and provides further confirmation that we have characterized the porcine homologue of the human RNF19.

Porcine UCHL1: genomic organization, chromosome localization and expression analysis.

The human UCHL1 gene encodes the ubiquitin C-terminal hydrolase UCHL1, which comprises more than 2% of total brain protein. UCHL1 is a component of the ubiquitin-proteasome system, which degrades overexpressed and damaged proteins. Mutations in the UCHL1 gene are associated with susceptibility to and protection from Parkinson's disease. Here we report cloning, characterization, expression analysis and mapping of porcine UCHL1. The UCHL1 cDNA was amplified by reverse transcriptase polymerase chain reaction (RT-PCR) using oligonucleotide primers derived from in silico sequences. The porcine cDNA codes for a protein of 223 amino acids which shows a very high similarity to human (98%) and to mouse (97%) UCHL1. In addition, the genomic organization of the porcine UCHL1 gene was determined. The porcine UCHL1 gene was mapped to chromosome 8(½p21)-p23. Three SNPs were found in the porcine UCHL1 sequence. Expression analysis by quantitative real time RT-PCR demonstrated that porcine UCHL1 mRNA is differentially expressed in various organs and tissues and similar to its human counterpart. UCHL1 transcript is most abundant in brain tissues and in the spinal cord. The UCHL1 mRNA expression was also investigated in developing porcine embryos. UCHL1 transcript was detected as early as 40 days of gestation. A significant decrease in UCHL1 transcript was detected in basal ganglia from day 60 to day 115 of gestation.

Exposure of pigs to glyphosate affects gene-specific DNA methylation and gene expression.

Glyphosate (N-(phosphonomethyl)glycine) is a broad-spectrum systemic herbicide and crop desiccant. Glyphosate has long been suspected of leading to the development of cancer and of compromising fertility. Herbicides have been increasingly recognized as epigenetic modifiers, and the impact of glyphosate on human and animal health might be mediated by epigenetic modifications. This article presents the results from an animal study where pigs were exposed to glyphosate while feeding. The experimental setup included a control group with no glyphosate added to the feed and two groups of pigs with 20 ppm and 200 ppm of glyphosate added to the feed, respectively. After exposure, the pigs were dissected, and tissues of the small intestine, liver, and kidney were used for DNA methylation and gene expression analyses. No significant change in global DNA methylation was found in the small intestine, kidney, or liver. Methylation status was determined for selected genes involved in various functions such as DNA repair and immune defense. In a CpG island of the promoter for IL18, we observed significantly reduced DNA methylation for certain individual CpG positions. However, this change in DNA methylation had no influence on IL18 mRNA expression. The expression of the DNA methylation enzymes DNMT1, DNMT3A, and DNMT3B was measured in the small intestine, kidney, and liver of pigs exposed to glyphosate. No significant changes in relative gene expression were found for these enzymes following dietary exposure to 20 and 200 ppm glyphosate. In contrast, a significant increase in expression of the enzyme TET3, responsible for demethylation, was observed in kidneys exposed to 200 ppm glyphosate.

[Assessment of nasal function by computational fluid dynamics].

This review summarises the knowledge of computational fluid dynamics (CFD) which combines fluid mechanics, mathematics and computer simulation to analyse airflow and air conditioning of the nasal airway. Traditional objective measures are hampered by low correlation to subjective outcome, whereas CFD variables such as heat flux and nasal middle airflow show good correlation. Studies also show great potential for virtual surgery, when the nasal procedure is simulated, and CFD analyse the impact on airflow and conditioning to optimize surgical planning. CFD could be of great value in rhinology and improve nasal surgery.