137 research outputs found
Autoinducer 2-based quorum sensing response of Escherichia coli to sub-therapeutic tetracycline exposure
Autoinducer 2 (AI-2) is a quorum sensing signal employed by bacteria to coordinate
their response to environmental stresses. The objective of this study was to determine the
relationship between presence of AI-2 molecules, exposure to sub-therapeutic tetracycline,
the expression of genes associated with the conjugal transfer of antibiotic resistance
plasmids, and the conjugal transfer of these plasmids in Escherichia coli. The studies showed
that AI-2 activity increased in Tets E. coli in the presence of tetracycline (2 õg/mL) under
both batch and continuous culture conditions. The presence of AI-2 molecules induced
tetracycline tolerance development in Tets E. coli. The studies showed that the survival rates
of Tets E. coli exposed to AI-2 molecules were significantly higher compared to the cells not
exposed to AI-2 molecules or cells that were exposed to only LB (Lauria-Bertani) broth.
Molecular analyses using real-time PCR indicate that the expression of at least one
conjugation-associated gene (trbC) is increased 9-fold in cells exposed to AI-2 molecules in
the presence of sub-therapeutic tetracycline compared to its negative controls. The
transconjugation frequency of the plasmid RP4 carrying the tet(A) gene increased between
10-100 fold in the presence of AI-2 molecules. In companion studies, AI-2-like activity was
detected in fish, tomatoes, cantaloupes, carrots and milk samples. Interestingly, ground beef
and poultry meat contained substances that appear to inhibit AI-2 activity. Collectively, these results highlight the potential importance of bacterial quorum sensing signals such as AI-2 in
the response of bacterial cells to environmental stimuli and the possible role of quorum
sensing signals in the quality and safety of foods
Autoinducer 2-based quorum sensing response of Escherichia coli to sub-therapeutic tetracycline exposure
Autoinducer 2 (AI-2) is a quorum sensing signal employed by bacteria to coordinate
their response to environmental stresses. The objective of this study was to determine the
relationship between presence of AI-2 molecules, exposure to sub-therapeutic tetracycline,
the expression of genes associated with the conjugal transfer of antibiotic resistance
plasmids, and the conjugal transfer of these plasmids in Escherichia coli. The studies showed
that AI-2 activity increased in Tets E. coli in the presence of tetracycline (2 õg/mL) under
both batch and continuous culture conditions. The presence of AI-2 molecules induced
tetracycline tolerance development in Tets E. coli. The studies showed that the survival rates
of Tets E. coli exposed to AI-2 molecules were significantly higher compared to the cells not
exposed to AI-2 molecules or cells that were exposed to only LB (Lauria-Bertani) broth.
Molecular analyses using real-time PCR indicate that the expression of at least one
conjugation-associated gene (trbC) is increased 9-fold in cells exposed to AI-2 molecules in
the presence of sub-therapeutic tetracycline compared to its negative controls. The
transconjugation frequency of the plasmid RP4 carrying the tet(A) gene increased between
10-100 fold in the presence of AI-2 molecules. In companion studies, AI-2-like activity was
detected in fish, tomatoes, cantaloupes, carrots and milk samples. Interestingly, ground beef
and poultry meat contained substances that appear to inhibit AI-2 activity. Collectively, these results highlight the potential importance of bacterial quorum sensing signals such as AI-2 in
the response of bacterial cells to environmental stimuli and the possible role of quorum
sensing signals in the quality and safety of foods
Clear Cell Cancer of the Uterine Corpus: The Association of Clinicopathologic Parameters and Treatment on Disease Progression
This paper presents a single-institution experience regarding the clinicopathologic features and treatment strategies used in uterine clear cell cancer (UCC), a rare, aggressive histologic subtype of uterine cancer with poor prognosis and discusses parameters associated with progression-free survival (PFS) and overall survival (OS). A retrospective chart review was performed on all patients (n = 80) diagnosed with UCC and treated between 1994 and 2009 at a single academic institution. Data on demographics, FIGO stage, treatment regimens, and recurrences were collected. Patients with early-stage UCC had an excellent survival regardless of adjuvant therapy. Advanced-stage patients had a worse survival. Vaginal apex brachytherapy was associated with an increased OS (P = 0.02) but not PFS (P = 0.10). The use of platinum-based chemotherapy in combination with vaginal apex brachytherapy did not significantly improve survival. Innovative therapies still need to be identified for this uncommon uterine cancer
Interplay of tRNA-Derived Fragments and T Cell Activation in Breast Cancer Patient Survival
Effector CD8+ T cell activation and its cytotoxic function are positively correlated with improved survival in breast cancer. tRNA-derived fragments (tRFs) have recently been found to be involved in gene regulation in cancer progression. However, it is unclear how interactions between expression of tRFs and T cell activation affect breast cancer patient survival. We used Kaplan–Meier survival and multivariate Cox regression models to evaluate the effect of interactions between expression of tRFs and T cell activation on survival in 1081 breast cancer patients. Spearman correlation analysis and weighted gene co-expression network analysis were conducted to identify genes and pathways that were associated with tRFs. tRFdb-5024a, 5P_tRNA-Leu-CAA-4-1, and ts-49 were positively associated with overall survival, while ts-34 and ts-58 were negatively associated with overall survival. Significant interactions were detected between T cell activation and ts-34 and ts-49. In the T cell exhaustion group, patients with a low level of ts-34 or a high level of ts-49 showed improved survival. In contrast, there was no significant difference in the activation group. Breast cancer related pathways were identified for the five tRFs. In conclusion, the identified five tRFs associated with overall survival may serve as therapeutic targets and improve immunotherapy in breast cancer
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Joint Effect of Genotypic and Phenotypic Features of Reproductive Factors on Endometrial Cancer Risk
Prolonged estrogen exposure is believed to be the major cause of endometrial cancer. As possible markers of estrogen exposure, various menstrual and reproductive features, e.g., ages at menarche and menopause, are found to be associated with endometrial cancer risk. In order to assess their combined effects on endometrial cancer, we created the total number of menstrual cycles (TNMC) that a woman experienced during her life or up to the time of study and two genetic risk scores, GRS1 for age at menarche and GRS2 for age at menopause. Comparing 482 endometrial cancer patients with 571 population controls, we found TNMC was associated with endometrial cancer risk and that the association remained statistically significant after adjustment for obesity and other potential confounders. Risk increased by about 2.5% for every additional 10 menstrual-cycles. The study also showed that high GRS1 was associated with increased risk. This relationship, however, was attenuated after adjustment for obesity. Our study further indicated women with high TNMC and GRS1 had twice the risk of endometrial cancer compared to those low in both indices. Our results provided additional support to the involvement of estrogen exposure in endometrial cancer risk with regard to genetic background and lifestyle features
Bile acid distributions, sex-specificity, and prognosis in colorectal cancer
Background Bile acids are known to be genotoxic and contribute to colorectal cancer (CRC). However, the link between CRC tumor bile acids to tumor location, patient sex, microbiome, immune-regulatory cells, and prognosis is not clear. Methods We conducted bile acid analysis using targeted liquid chromatography–mass spectrometry (LC–MS) on tumor tissues from CRC patients (n = 228) with survival analysis. We performed quantitative immunofluorescence (QIF) on tumors to examine immune cells. Results Twelve of the bile acids were significantly higher in right-sided colon tumors compared to left-sided colon tumors. Furthermore, in male patients, right-sided colon tumors had elevated secondary bile acids (deoxycholic acid, lithocholic acid, ursodeoxycholic acid) compared to left-sided colon tumors, but this difference between tumors by location was not observed in females. A high ratio of glycoursodeoxycholic to ursodeoxycholic was associated with 5-year overall survival (HR = 3.76, 95% CI = 1.17 to 12.1, P = 0.026), and a high ratio of glycochenodeoxycholic acid to chenodeoxycholic acid was associated with 5-year recurrence-free survival (HR = 3.61, 95% CI = 1.10 to 11.84, P = 0.034). We also show correlation between these bile acids and FoxP3 + T regulatory cells. Conclusions This study revealed that the distribution of bile acid abundances in colon cancer patients is tumor location-, age- and sex-specific, and are linked to patient prognosis. This study provides new implications for targeting bile acid metabolism, microbiome, and immune responses for colon cancer patients by taking into account primary tumor location and sex
The steroid hormone estriol (E3) regulates epigenetic programming of fetal mouse brain and reproductive tract.
peer reviewed[en] BACKGROUND: Estriol (E3) is a steroid hormone formed only during pregnancy in primates including humans. Although E3 is synthesized at large amounts through a complex pathway involving the fetus and placenta, it is not required for the maintenance of pregnancy and has classically been considered virtually inactive due to associated very weak canonical estrogen signaling. However, estrogen exposure during pregnancy may have an effect on organs both within and outside the reproductive system, and compounds with binding affinity for estrogen receptors weaker than E3 have been found to impact reproductive organs and the brain. Here, we explore potential effects of E3 on fetal development using mouse as a model system.
RESULTS: We administered E3 to pregnant mice, exposing the fetus to E3. Adult females exposed to E3 in utero (E3-mice) had increased fertility and superior pregnancy outcomes. Female and male E3-mice showed decreased anxiety and increased exploratory behavior. The expression levels and DNA methylation patterns of multiple genes in the uteri and brains of E3-mice were distinct from controls. E3 promoted complexing of estrogen receptors with several DNA/histone modifiers and their binding to target genes. E3 functions by driving epigenetic change, mediated through epigenetic modifier interactions with estrogen receptors rather than through canonical nuclear transcriptional activation.
CONCLUSIONS: We identify an unexpected functional role for E3 in fetal reproductive system and brain. We further identify a novel mechanism of estrogen action, through recruitment of epigenetic modifiers to estrogen receptors and their target genes, which is not correlated with the traditional view of estrogen potency
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