Bacillus coagulans Unique IS2 in Constipation: A Double-Blind,Placebo-Controlled Study

Functional constipation has a high prevalence in both adults and children affecting quality of life. Evidence suggests that probiotics can reduce the sympt     

PELP1 is a reader of histone H3 methylation that facilitates oestrogen receptor‐α target gene activation by regulating lysine demethylase 1 specificity

Histone methylation has a key role in oestrogen receptor (ERα)‐mediated transactivation of genes. Proline glutamic acid and leucine‐rich protein 1 (PELP1) is a new proto‐oncogene that functions as an ERα co‐regulator. In this study, we identified histone lysine demethylase, KDM1, as a new PELP1‐interacting protein. These proteins, PELP1 and KDM1, were both recruited to ERα target genes, and PELP1 depletion affected the dimethyl histone modifications at ERα target genes. Dimethyl‐modified histones H3K4 and H3K9 are recognized by PELP1, and PELP1 alters the substrate specificity of KDM1 from H3K4 to H3K9. Effective demethylation of dimethyl H3K9 by KDM1 requires a KDM1–ERα–PELP1 functional complex. These results suggest that PELP1 is a reader of H3 methylation marks and has a crucial role in modulating the histone code at the ERα target genes.     

Raman spectroscopy can differentiate malignant tumors from normal breast tissue and detect early neoplastic changes in a mouse model

Raman spectroscopy shows potential in differentiating tumors from normal tissue. We used Raman spectroscopy with near-infrared light excitation to study normal breast tissue and tumors from 11 mice injected with a cancer cell line. Spectra were collected from 17 tumors, 18 samples of adjacent breast tissue and lymph nodes, and 17 tissue samples from the contralateral breast and its adjacent lymph nodes. Discriminant function analysis was used for classification with principal component analysis scores as input data. Tissues were examined by light microscopy following formalin fixation and hematoxylin and eosin staining. Discriminant function analysis and histology agreed on the diagnosis of all contralateral normal, tumor, and mastitis samples, except one tumor which was found to be more similar to normal tissue. Normal tissue adjacent to each tumor was examined as a separate data group called tumor bed. Scattered morphologically suspicious atypical cells not definite for tumor were present in the tumor bed samples. Classification of tumor bed tissue showed that some tumor bed tissues are diagnostically different from normal, tumor, and mastitis tissue. This may reflect malignant molecular alterations prior to morphologic changes, as expected in preneoplastic processes. Raman spectroscopy not only distinguishes tumor from normal breast tissue, but also detects early neoplastic changes prior to definite morphologic alteration.     

Ornithine decarboxylase transgene in tobacco affects polyamines,in vitro-morphogenesis and response to salt stress

Transgenic tobacco plants expressing the putrescine synthesis gene ornithine decarboxylase from mouse were raised to study the effects of up-regulation of a metabolic pathway as critical as the polyamine biosynthesis on the plant growth and development, in vitro-morphogenesis and their response to salt stress. Further, the response of the alternate pathway (arginine decarboxylase) for putrescine synthesis to the modulation of the ornithine decarboxylase pathway has also been investigated. The over-expression of the odc gene and increased levels of putrescine in tobacco led to a delay in plant regeneration on selection medium which could be overcome by the exogenous application of polyamine biosynthesis inhibitors and spermidine. Further, the lines generated had a variable in vitro morphogenic potential, which could be correlated to the shifts in their polyamine metabolism. These studies have brought forward the critical role played by polyamines in the normal development of plants and also their role in plant regeneration. Since polyamines are known to accumulate in cells under abiotic stress conditions, the tolerance of the transgenics to salt stress was also investigated and the transgenics with their polyamine metabolism up-graded showed increased tolerance to salt stress.     

Cowpea mosaic virus nanoscaffold as signal enhancement for DNA microarrays

Previous studies have shown that a functionalized viral nanoparticle can be used as a fluorescent signal-generating element and enhance detection sensitivity for immunoassays and low density microarrays. In this study, we further tested this ability in commercial DNA microarrays, including Affymetrix high density resequencing microarray. Optimum conditions for NeutrAvidin and dye coupling to a double-cysteine mutant of cowpea mosaic virus (CPMV) were found to be comparable to the commonly used streptavidin-phycoerythrin (SAPE) for high density resequencing microarray. A 3-fold signal enhancement in comparison to Cy5-dCTP controls was obtained when using nanoparticles on control scorecard expression microarrays. Hybridization results from commercially available 8000 rat expression arrays indicate an increment of 14% on the detected features when the virus complex was used as the staining reagent in comparison to Cy5-dCTP controls. The current work shows the utility of the CPMV-dye nanoparticles as a detection reagent in well-established detection platforms.     

Microbial pretreatment of cotton stalks by submerged cultivation of Phanerochaete chrysosporium

This study used the fungus, Phanerochaete chrysosporium, to pretreat cotton stalks with two methods, shallow stationary and agitated cultivation, at three supplemental salt concentrations. Pretreatment efficiencies were compared by evaluating lignin degradation, solid recovery and carbohydrate availability over a 14-day period. Shallow stationary cultivation with no salts gave 20.7% lignin degradation along with 76.3% solid recovery and 29.0% carbohydrate availability. The highest lignin degradation of 33.9% at a corresponding solid recovery and carbohydrate availability of 67.8% and 18.4%, respectively, was obtained through agitated cultivation with Modified NREL salts. Cultivation beyond 10 days did not significantly increase lignin degradation during 14 days of pretreatment. Manganese addition during shallow stationary and agitated cultivation resulted in higher solid recoveries of over 80% but lower lignin degradation. Although agitated cultivation resulted in better delignification, results indicate that pretreatment under submerged shallow stationary conditions provides a better balance between lignin degradation and carbohydrate availability.     

Polycystic ovary syndrome in Indian women: a mass spectrometry based serum metabolomics approach

Introduction

Polycystic ovary syndrome (PCOS) is a complex, heterogeneous endocrinological disorder with uncertain pathogenesis and is very common in women of reproductive age. There are few reports of utilizing metabolomics approach to understand the complex pathophysiology of PCOS. However, excluding one previous NMR-based metabolomics study, none of the study was conducted in Indian population.

Objective

The study aims to compare the serum metabolomic profile of PCOS women with controls from the Eastern region of India.

Methods

PCOS women (n?=?35) and healthy control women (n?=?30) undergoing tubal ligation were recruited for this study. Serum metabolic profiles were generated using liquid chromatography–tandem mass spectrometry (LC-MS/MS) and gas chromatography–mass spectrometry (GC-MS). Multivariate statistical analysis was applied to spectral data obtained from both the LC-MS/MS and GC/MS.

Results

Nine metabolites were identified to be most significantly dysregulated in sera of PCOS women; however, few other identified metabolites were also altered but with lesser significance. Amongst these metabolites, riboflavin, sucrose, adenine and N-acetyl glycine, phosphoric acid and cortisol were down-regulated, whereas, thymine, cystathionine, and phenylalanine were up-regulated in PCOS when compared with controls. The observed changes in metabolite expression suggested alterations in aminoacyl-tRNA biosynthesis, metabolism of nitrogen, alanine-aspartate-glutamate, galactose, glycine-serine-threonine, and pyrimidine-purine among several metabolic pathways possibly implicated in these PCOS women.

Conclusion

The altered metabolites identified in PCOS women of Eastern Indian population, provide insight into current perceptive of the disease pathology, metabolic involvements, and may be considered as putative markers of PCOS.

     

Degrons of yeast and mammalian ornithine decarboxylase enzymes make potent combination for regulated targeted protein degradation

Elevation of polyamine levels in eukaryotes leads to rapid degradation of ornithine decarboxylase (ODC), the first enzyme of polyamine biosynthesis pathway. ODC in yeast (yODC) has two domains, the Nα/β domain consisting of α/β barrel domain (α/β) preceded by an overhang of 50 residues at its N-terminus (N50) and β sheet domain at its C-terminus. Two degradation determinant signals or degrons in yODC sequence, namely the N50 and the antizyme-binding element (AzBE) housed in the α/β domain, are responsible for its degradation by proteasomes. Antizyme (Az) induced under polyamine excess binds to AzBE and delivers ODC to proteasome, while the N50 threads the protein into proteasome. It was previously reported by us that the peptide Nα/β of yODC acts as an independent transplantable degron, whose action can be modulated with the help of antizyme by varying polyamine levels. Mammalian ODC (mODC), in spite of its 40% sequence homology with yODC, is devoid of N50 of yODC and instead sports a C-terminal tail of 37 residues (CmODC). CmODC acts as an independent transplantable degron with no equivalent in yODC. The present study investigates the merits of employing the two degrons Nα/β and CmODC together for targeted protein degradation by expressing them in a chimeric fusion with green fluorescent protein (GFP). Our results establish that under the regulation of antizyme, the signals Nα/β and CmODC acting together enhance degradation better than either degron in isolation. The combination of Nα/β and CmODC can be employed to study the function of novel proteins through their rapid removal.

     

Constitutively activated ERK sensitizes cancer cells to doxorubicin: Involvement of p53-EGFR-ERK pathway

The tumour suppressor gene p53 is mutated in approximately 50% of the human cancers. p53 is involved in genotoxic stress-induced cellular responses. The role of EGFR and ERK in DNA-damage-induced apoptosis is well known. We investigated the involvement of activation of ERK signalling as a consequence of non-functional p53, in sensitivity of cells to doxorubicin. We performed cell survival assays in cancer cell lines with varying p53 status: MCF-7 (wild-type p53, WTp53), MDA MB-468 (mutant p53, MUTp53), H1299 (absence of p53, NULLp53) and an isogenic cell line MCF-7As (WTp53 abrogated). Our results indicate that enhanced chemosensitivity of cells lacking wild-type p53 function is because of elevated levels of EGFR which activates ERK. Additionally, we noted that independent of p53 status, pERK contributes to doxorubicin-induced cell death.