Project description:Using whole genome mRNA expression profiling of primary human tumors and unsupervised hierarchical cluster analyses, 3 novel molecular subsets (basal, luminal and p53-like subsets) of muscle-invasive bladder cancer (MIBC) were identified. 23 MVAC treated samples were used for the validation of three MIBC subsets MVAC cohort consisted of 23 FFPE pretreatment tumors (TURs) from a Phase III clinical trial were used to validate 3 molecular subsets including basal, luminal and p53-like subsets We used Illumina cDNA-mediated Annealing, Selection, Extension, and Ligation (DASL) assay that is specifically designed for the gene expression of RNA that is extracted from FFPE.

Project description:Purpose: While molecular targeted therapy has revolutionized the treatment of many cancers, little progress has been made in the development of novel therapies for muscle invasive bladder cancer (MIBC). Here we report on the establishment and characterization of patient-derived primary MIBC xenografts Tumor fragments derived from 7 patients with MIBC were grafted under the renal capsule of NOD-SCID mice and subsequently transplanted to further mice over multiple generations. Patient tumor and xenograft tissue were processed for analysis of , gene expression by microarray, and expression of select potential target pathways by immunohistochemistry (IHC).

Project description:Previous work on murine models and humans demonstrated global as well as tissue-specific molecular ageing trajectories of RNAs. Extracellular vesicles (EVs) are membrane vesicles mediating the horizontal transfer of genetic information between different tissues. We sequenced small regulatory RNAs (sncRNAs) in two mouse plasma fractions at five time points across the lifespan from 2-18 months: (1) sncRNAs that are free-circulating (fc-RNA) and (2) sncRNAs bound outside or inside EVs (EV-RNA). Different sncRNA classes exhibit unique ageing patterns that vary between the fcRNA and EV-RNA fractions. While tRNAs showed the highest correlation with ageing in both fractions, rRNAs exhibited inverse correlation trajectories between the EV- and fc-fractions. For miRNAs, the EV-RNA fraction was exceptionally strongly associated with ageing, especially the miR-29 family in adipose tissues. Sequencing of sncRNAs and coding genes in fat tissue of an independent cohort of aged mice up to 27 months highlighted the pivotal role of miR-29a-3p and miR-29b-3p in ageing-related gene regulation that we validated in a third cohort by RT-qPCR.

Project description:The goals of this study are to screen differential expression profiles of tRNA-Derived small RNAs (tsRNAs) in muscle-invasive bladder cancer (MIBC) in Chinese population using next-generation sequencing and qRT-PCR.As a result, in MIBC tissues, 406 tsRNAs were differentially expressed between in MIBC tissues. Of them, 91 tsRNAs were significantly differentially expressed (fold change>1.5; P<0.05): 65 tsRNAs were significantly up-regulated whereas 26 were significantly down-regulated in MIBC.Taken together,this study explored, for the first time, the significant alteration of tsRNA expression profiles in MIBC in Chinese population and offered deep insights into many possible treatment targets of MIBC by regulating tsRNAs.

Project description:Environmental Influences on Early Ageing birth cohort

Project description:Wildling mice 16S rRNA amplicon from miBC

Project description:Muscle-invasive bladder cancer (MIBC) is an aggressive disease with high morbidity and mortality that can be divided into basal and luminal subtypes based on genomic characteristics. Due to the complex heterogeneity of MIBC, specific markers are needed to distinguish MIBC subtypes to guide future clinical treatment. In this study, we explore abnormal lncrnas that are specific to the basic and intracavitary subtypes of MIBC, which will provide potential biomarkers for precision therapy of MIBC.

Project description:Muscle invasive bladder cancer (MIBC) is a heterogeneous disease with a high recurrence rate and poor clinical outcomes. Molecular subtype provides a new framework for the study of MIBC heterogeneity. Clinically, MIBC can be classified as basal and luminal subtypes, they display different clinical and pathological characteristics, but the molecular mechanism is still unclear. Lipidomic and metabolomic molecules have recently been considered to play an important role in the genesis and development of tumors, especially as potential biomarkers. Their different expression profiles in basal and luminal subtypes provide clues for the molecular mechanism of basal and luminal subtypes and the discovery of new biomarkers. Herein, we stratified MIBC patients into basal and luminal subtype using a MIBC classifier based on transcriptome expression profiles. We qualitatively and quantitatively analyzed the lipids and metabolites of basal and luminal MIBC subtypes, and identified differential lipid and metabolite profiles of them. Our results suggest that free fatty acids (FFA) and sulfatides (SL), which are closely associated with immune and stromal cell types, can contribute to the diagnosis of basal and luminal subtypes of MIBC. Moreover, we showe that glycerophosphocholine (GCP)/imidazoles and nucleosides/imidazoles ratios can accurately distinguish the basal and luminal tumors. Overall, by integrating transcriptomic, lipidomic, and metabolomic data, our study reveals specific biomarkers to differentially diagnose basal and luminal MIBC subtypes and may provide a basis for precision therapy of MIBC.

Project description:Clinical management of bladder carcinomas (BC) remains a major challenge and demands comprehensive multi-omics analysis for better stratification of the disease. Identification of patients on risk requires identification of signatures predicting prognosis risk of the patients. Understanding the molecular alterations associated with the disease onset and progression could improve the routinely used diagnostic and therapy procedures. In this study, we investigated the aberrant changes in N-glycosylation pattern of proteins associated with tumorigenesis as well as disease progression in bladder cancer. We integrated and compared global N-glycoproteomic and proteomic profile of urine samples from bladder cancer patients at different clinicopathological stages (non-muscle invasive and muscle-invasive patients (n=5 and 4 in each cohort)) with healthy subjects (n=5) using SPEG method. We identified 635 N-glycopeptides corresponding to 381 proteins and 543 N-glycopeptides corresponding to 326 proteins in NMIBC and MIBC patients respectively. Moreover, we identified altered glycosylation in 41 NMIBC and 21 MIBC proteins without any significant change in protein abundance levels. In concordance with the previously published bladder cancer cell line N-glycoproteomic data, we also observed dysregulated glycosylation in ECM related proteins. Further, we identified distinct N-glycosylation pattern of CD44, MGAM and GINM1 between NMIBC and MIBC patients, which may be associated with disease progression in bladder cancer. These aberrant protein glycosylation events would provide a novel approach for bladder carcinoma diagnosis and further define novel mechanisms of tumor initiation and progression.

Project description:Ageing is a complex process characterised by a systemic and progressive deterioration of biological functions. As ageing is associated with an increased prevalence of age-related chronic disorders, understanding its underlying molecular mechanisms can pave the way for therapeutic interventions and managing complications. Animal models such as mice are commonly used in ageing research as they have a shorter lifespan in comparison to humans and are also genetically close to humans. To assess the translatability of mouse ageing to human ageing, the urinary proteome in 89 wild-type (C57BL/6) mice aged between 8-96 weeks was investigated using capillary electrophoresis coupled to mass spectrometry (CE-MS). Using age as a continuous variable, 295 peptides significantly correlated with age in mice were identified. To investigate the relevance of using mouse models in human ageing studies, a comparison was performed with a previous correlation analysis using 1227 healthy subjects. In mice and humans, a decrease in urinary excretion of fibrillar collagens and an increase of uromodulin fragments was observed with advanced age. Of the 295 peptides correlating with age, 49 had a strong homology to the respective human age-related peptides. These ortholog peptides including several collagen (N= 44) and uromodulin (N= 5) fragments were used to generate an ageing classifier that was able to discriminate the age among both wild-type mice and healthy subjects. Additionally, the ageing classifier depicted that telomerase knock-out mice were older than their chronological age. Hence, with a focus on ortholog urinary peptides mouse ageing can be translated to human ageing.