Senescence Defines a Distinct Subset of Myofibroblasts That Orchestrates Immunosuppression in Pancreatic Cancer.

Pancreatic ductal adenocarcinoma (PDAC) therapeutic resistance is largely attributed to a unique tumor microenvironment embedded with an abundance of cancer-associated fibroblasts (CAF). Distinct CAF populations were recently identified, but the phenotypic drivers and specific impact of CAF heterogeneity remain unclear. In this study, we identify a subpopulation of senescent myofibroblastic CAFs (SenCAF) in mouse and human PDAC.

A ketogenic diet enhances fluconazole efficacy in murine models of systemic fungal infection.

Invasive fungal infections are a significant public health concern, with mortality rates ranging from 20% to 85% despite current treatments. Therefore, we examined whether a ketogenic diet could serve as a successful treatment intervention in murine models of and infection in combination with fluconazole-a low-cost, readily available antifungal therapy. The ketogenic diet is a high-fat, low-carbohydrate diet that promotes fatty acid oxidation as an alternative to glycolysis through the production of ketone bodies.

"RIPping" off Pancreas Cancer's Blockage of Immune Surveillance.

MHC-I downregulation is correlated with immunotherapy resistance in PDAC, but efficient strategies to increase cell-surface MHC-I are still lacking. This study by Sang, Zhou, Chen, Yu, and colleagues identified inhibition of tumor-intrinsic RIPK2 as a pharmacologic target to block the degradation of MHC-I on tumor cells and improved PDAC responses to anti-PD-1 immunotherapy. See related article by Sang et al.

Intensive Versus Traditional Cardiac Rehabilitation: Mortality and Cardiovascular Outcomes in a 2016-2020 Retrospective Medicare Cohort.

Background: Traditional cardiac rehabilitation (CR) improves cardiovascular outcomes and reduces mortality, but less is known about the relative benefit of intensive CR (ICR) which incorporates greater lifestyle education through 72 sessions (versus 36 in CR). Our objective was to determine whether ICR is associated with a mortality and cardiovascular benefit compared with CR.

Methods: Retrospective cohort study of Medicare Fee-For-Service beneficiaries in a 100% sample, claims data set.

The time is now: Student-driven implementation of social justice and anti-racism focused curricula in medical scientist training program education.

There exists a dearth of supplementary programs to educate physician-scientist trainees on anti-racism and topics surrounding social justice in medicine and science. Education on these topics is critical to prevent the perpetuation of systemic racism within the institutions of academia and medicine. Students in the Washington University School of Medicine Medical Scientist Training Program and the Tri-Institutional MD-PhD Program developed journal clubs with curricula focused on social justice and anti-racism for the summer of 2020.

Tumor Heterogeneity in Glioblastomas: From Light Microscopy to Molecular Pathology.

One of the main reasons for the aggressive behavior of glioblastoma (GBM) is its intrinsic intra-tumor heterogeneity, characterized by the presence of clonal and subclonal differentiated tumor cell populations, glioma stem cells, and components of the tumor microenvironment, which affect multiple hallmark cellular functions in cancer. "Tumor Heterogeneity" usually encompasses both (population-level differences); and (differences within individual tumors). Tumor heterogeneity may be assessed in a single time point (spatial heterogeneity) or along the clinical evolution of GBM (longitudinal heterogeneity).

Pediatric Gliosarcoma With and Without Neurofibromatosis Type 1: A Whole-exome Comparison of 2 Patients.

Gliosarcoma is rare among pediatric patients and among individuals with Neurofibromatosis Type 1 (NF1). Here we compare 2 pediatric gliosarcoma patients, one of whom has NF1. We performed whole-exome sequencing, methylation, and copy number analysis on tumor and blood for both patients.

Dexamethasone stimulates ribosomal protein L32 gene transcription in rat myoblasts.

Incubation of rat L6 myoblasts for 24 h with 10(-7) M dexamethasone, a glucocorticoid analogue, resulted in a 2.5-fold increase in the rate of ribosomal protein L32 (rpL32) gene transcription with a corresponding increase in the level of rpL32 mRNA. The increased rate of transcription was accompanied by a dramatic enhancement in binding of the delta, but not beta and gamma, factors to the rpL32 gene promoter as measured by gel mobility shift assays.

GA-binding protein is involved in altered expression of ribosomal protein L32 gene.

Differentiation of BC3H1 myoblasts to myocytes is accompanied by a 67% drop in the rate of rpL32 gene transcription. Addition of high concentrations of serum to resting myocyte populations stimulates cell growth and subsequent dedifferentiation to proliferating myoblasts with a return to the normal rate of rpL32 gene transcription. During these growth rate changes the binding activities of previously identified factors (beta, gamma, delta) which interact with the rpL32 gene promoter were examined by mobility shift assays.

Altered subcellular distribution of U3 snRNA in response to serum in mouse fibroblasts.

To extend our understanding of the mechanisms regulating ribosome biosynthesis during changes in cellular growth rate, the expression and subcellular distribution of U3 snRNA and one of its associated proteins, fibrillarin, were examined in mouse 3T6 fibroblasts. Altering serum concentrations produces changes in the ribosome content of the cell as reflected by total RNA levels. When exponentially growing 3T6 cells are induced to become quiescent by serum starvation, a significant downshift in U3 snRNA gene transcription occurs in parallel to a decrease in pre-rRNA synthesis.

The RNA polymerase I transcription factor UBF is the product of a primary response gene.

Transcription of the ribosomal RNA genes by RNA polymerase I is tightly coordinated with the rate of cell growth. The RNA polymerase I transcription factor, UBF, activates transcription by binding to elements within the promoter and enhancer elements within the intergenic spacer but is not required for basal transcription. To assess the role of UBF in modulating ribosomal DNA transcription, we studied its expression in NIH3T6 fibroblasts when transcription was repressed in response to serum starvation and stimulated following refeeding.

Coordinated decreases in rRNA gene transcription factors and rRNA synthesis during muscle cell differentiation.

rRNA synthesis decreases significantly during the differentiation of rat L6 myoblasts to myotubes. Nuclear run-on assays demonstrated that the decrease was attributable to decreased rates of rRNA gene transcription. Immunoblot analysis indicated a marked reduction in amounts of the RNA polymerase I transcription factors UBF1 and UBF2 (upstream binding factors 1 and 2, respectively).

Dexamethasone stimulates rRNA gene transcription in rat myoblasts.

The glucocorticoid analogue, dexamethasone, stimulated RNA synthesis more than two-fold in rat L6 myoblasts, without affecting the rate of cell proliferation. Treatment of myoblasts for 24 h with 10(-7) M dexamethasone resulted in a 30% increase in the cellular RNA level. More than a two-fold stimulation of pre-rRNA gene transcription by dexamethasone, as measured in isolated nuclei and by cell-free transcription, was accompanied by a corresponding increase in pre-rRNA levels.

Direct binding of yeast transcription factor (TFIID) to the ribosomal protein L32 (rpL32) TATA-less promoter sequence.

The ribosomal protein L32 (rpL32) gene transcribed by RNA polymerase II lacks a canonical TATA element, that binds the transcription factor TFIID tau or TBP (TATA binding protein). Instead this promoter contains an element, termed gamma, located at -30 relative to the transcription initiation site. We previously reported that, despite the lack of a canonical TATA element the rpL32 gene utilizes yeast TFIID tau for its transcriptional initiation.

A positive regulator of the ribosomal protein gene, beta factor, belongs to the ETS oncoprotein family.

The beta factor, which interacts with the rpL32 promoter, binds to the sequence 5'-GAGCCGGAAGTG and trans-activates this gene. Comparison of the DNA sequences bound by the beta factor with those bound by other known DNA-binding proteins revealed that the ETS proteins interact with similar DNA sequences. Consequently we have examined the relationship of the beta factor to the several ETS proteins so far reported.

Regulation of U3 snRNA expression during myoblast differentiation.

Differentiation of proliferating rat L6 myoblasts to syncytial multinucleated myotubes results in a significant downshift in the rate of U3 snRNA gene transcription, paralleling the decrease in rRNA synthesis previously documented. Coordinate production of U3 snRNA and rRNA during the differentiation process adds further support for a role of U3 snRNA in ribosome biogenesis. Despite the dramatic decrease in U3 snRNA transcription during differentiation, a corresponding drop in the cellular level of U3 snRNA does not occur.

A downstream sequence of the rpL32 promoter competes with the glucocorticoid responsive element for a protein factor.

The murine ribosomal protein (rp) L32 gene contains essential promoter sequences located both upstream and downstream of the cap site. A combination of gel mobility shift, UV cross-linking, and cell-free transcription assays were used to analyze the interaction of factors binding to a downstream element (located at position +25 to +37). The rpL32 downstream element identified polypeptides (transcription factors) ranging in size from 45 to 25 kilodaltons (kDa).

Translation of poly(A)-binding protein mRNA is regulated by growth conditions.

Translational efficiency of a minor group of mRNAs is regulated by serum levels in 3T6 fibroblasts. Included within this group is the poly(A)-binding protein (PABP) mRNA. We analyzed the distribution of PABP mRNA in polysome profiles and found a large percentage of this mRNA to be translationally repressed in both actively growing (approximately 60%) and resting cells (approximately 70%).

Yeast transcription factor IID participates in cell-free transcription of a mammalian ribosomal protein TATA-less promoter.

We analysed transcription of the gene for the ribosomal protein (rp) L32 of the mouse, which is transcribed in mouse L1210 nuclear extracts in vitro. The rpL32 gene lacks a canonical TATA box. Hence it has been suggested that this gene has an alternative transcription pathway not requiring transcription factor IID (TFIID).

Modification of mRNA-associated proteins during changes in growth conditions.

Following serum stimulation of quiescent 3T6 cells, an elevated in vivo rate of translation was observed. These studies were designed to identify the proteins associated with polysomal mRNA under different growth conditions in an attempt to establish a relationship between translational rate and the mRNA-associated proteins. Ultraviolet cross-linking of proteins to mRNA was employed to ensure that only genuine mRNA-associated proteins were investigated.

Enhanced cell-free transcription of the ribosomal protein L32 gene by the polyoma virus enhancer PEA3 DNA-binding protein.

The mouse-ribosomal-protein-L32-gene promoter contains a 12-bp sequence motif within the 5'-upstream region termed the beta element which shows significant similarity with the consensus sequence of the polyoma-virus-enhancer PEA3. A cloned PEA3 DNA-binding protein, expressed in Escherichia coli and purified, activates the expression of the ribosomal-protein-L32 gene in a cell-free system. Moreover, the PEA3 protein participates in the formation of the ribosomal-protein-L32-promoter-preinitiation-transcription complex.

Histone H4 mRNA levels are down-regulated by 3' RNA processing during terminal differentiation of myoblasts.

The capacity for 3' processing of the histone H4 pre-mRNA is lost following differentiation of rat L6 myoblasts to myotubes. Nuclear extracts prepared from proliferating myoblasts, but not differentiated myotubes, actively process histone H4 pre-mRNA in vitro. The activity of two factors required for 3' processing, the heat-labile factor and U7 snRNP, also changes during the differentiation period, concurrent with the loss of 3' processing activity.

Visualization of a mammalian transcription initiation complex.

Various proteins required for the initiation of eukaryotic gene transcription by RNA polymerase II have been identified and characterized, but little is known about their organization into a functional unit. Here, we describe the appearance of the murine ribosomal protein (rp) L32 gene transcription initiation complex as determined by transmission electron microscopy. Using a fractionated nuclear extract enriched for transcription factors necessary for rpL32 gene transcription in vitro and a DNA fragment containing the rpL32 gene promoter, the transcription initiation complex was imaged by standard transmission electron microscopy.