Hartsloan7047
Studies have shown poorer health outcomes for people who identify as sexual and/or gender minority (LGBTQ+) compared to heterosexual peers. Our goal was to establish baseline levels of LGBTQ Ally Identity Measure (AIM) scores (1) Knowledge and Skills, (2) Openness and Support, and (3) Awareness of Oppression of the LGBTQ+ in surgical trainees, and implement a pilot training in LGBTQ+cultural competency.
General surgery residents from a single academic medical center participated in a 2-h educational training developed from the existing Health Care Safe Zone training at our institution. Utilizing the previously validated LGBTQ Ally Identity Measure (AIM), residents responded to 19 items on Likert-type scales from 1 to 5 pretraining and 6wk posttraining. The residents' perceptions of the utility of the training were also assessed. Data were analyzed by MANOVA, repeated measures MANOVA, and subsequent univariate analysis.
27 residents responded to the pretraining survey (52%), 22 residents participated in y-related competencies within the graduate medical education for surgical trainees.
Assessing LGBTQ + allyship in surgical residents, we found that training improved AIM scores over time with significant improvement in the Knowledge and Skills, and Openness and Support scales, suggesting a viable and valuable curriculum focused on sexual and gender identity-related competencies within the graduate medical education for surgical trainees.
Success in academic surgery is challenging and research cannot survive without funding. NIH K-awards are designed to mentor junior investigators to achieve independence. As a result we aimed to study K awardees in departments of surgery and learn from their experience.
Utilizing the NIH RePORTer database and filtering by department of surgery, clinically active surgeons receiving a K-award between 2008 and 2018 were asked to complete an online survey. Qualitative data from two open-ended questions were coded independently using standard qualitative methods by three researchers. Using grounded theory, major themes emerged from the codes.
Of the 144 academic surgeons identified, 89 (62%) completed the survey. The average age was 39±3 when the K-award was granted. Most identified as white (69%). Men (70%) were more likely to be married (P=0.02) and have children (P=0.05). To identify intention to pursue R01 funding, surgeons having a K-award for 5y or more were analyzed (n=45). Most either intended to (11%and time available for research are the most crucial factors to succeed as an academic surgeon.ALK (Anaplastic lymphoma kinase) fusion proteins are oncogenic and have been seen in various tumors. PPP1CB-ALK fusions are rare but have been reported in a few patients with low- or high-grade gliomas. However, little is known regarding the mechanism of fusion formation and genomic break points of this fusion. We performed genomic characterization of a PPP1CB-ALK fusion with fusion gene amplification in a congenital glioblastoma. The PPP1CB-ALK consists of exons 1-5 of PPP1CB and exons 20-29 of ALK. The genomic translocation breakpoints were determined by real-time quantitative PCR (RT-qPCR) and Sanger sequencing of genomic DNA. Next generation sequencing, RT-qPCR and fluorescence in situ hybridization analyses demonstrated PPP1CB-ALK amplification. Copy number analyses of genes between PPP1CB and ALK using RT-qPCR suggest that the PPP1CB-ALK is likely the result of local chromothripsis followed by episomal amplification. Transcriptome sequencing demonstrated high-level SOX2 expression and predicted WNT/β-catenin pathway activation, suggesting possible therapeutic approaches.The detection of chromosomal abnormalities is important in the diagnosis, prognosis and disease monitoring in plasma cell neoplasia (PCN). However, the gold standard diagnostic techniques of conventional cytogenetics (CC) and fluorescence in situ hybridization (FISH) are hampered by culture difficulties and probe availability. Cytogenomic microarray (CMA), however, is able to surmount such limitations and generate a comprehensive genomic profile with the implementation of plasma cell (PC) enrichment. In this study, we examined 89 bone marrow specimens with CC and FISH without PC enrichment, 35 of which were examined with CMA after PC enrichment. Results revealed that after PC enrichment, CMA was able to detect chromosomal abnormalities in 34 of 35 specimens tested (97.1%), compared to 21 and 32 specimens (60% and 91.4%, respectively) achieved by CC and FISH, respectively, which were similar to the abnormality detection rates among all 89 specimens (59.5% by CC and 92.1% by FISH). In addition, as the only technique capable of detecting copy neutral loss of heterozygosity (CN-LOH) and chromothripsis, CMA appears to be the most powerful tool in risk stratification as it successfully re-stratified 9 (25.7%) and 12 (34.3%) specimens from standard risk (determined by CC and FISH, respectively) to high risk. Based on the encouraging data presented by our study and others, we conclude that implementation of CMA with PC enrichment is of great value in routine clinical workup in achieving a more complete genetic profile of patients with PCN.The Wnt/β-catenin pathway is an attractive target for the treatment of acute myelogenous leukemia (AML), since aberrant activation of the Wnt/β-catenin pathway contributes to carcinogenesis in various types of cancers including AML. Screening of an in-house compound library, constructed at Kyoto Pharmaceutical University, identified a novel compound designated "31" that was found to be an inhibitor of the Wnt/β-catenin pathway. The compound inhibited T-cell factor (TCF) activity in a TCF firefly luciferase-reporter assay and suppressed the proliferation of several human AML cell lines in a dose-dependent manner. Compound 31 arrested the cell cycle of AML cells at the G1 stage and induced apoptosis. Decrease in protein and mRNA expression level of Wnt pathway-related molecules was confirmed by the analyses of western blotting and quantitative reverse transcription-polymerase chain reaction. In addition, compound 31 combined with idarubicin synergistically inhibited the proliferation of AML cells. In conclusion, these results strongly suggest that compound 31 has potential as a novel anti-AML agent targeting the Wnt/β-catenin signaling pathway.Bacteria possess several molecular pathways to adapt to changing environments and to stress conditions. One of these pathways involves a complex network of chaperone proteins that together control proteostasis. In the aquatic bacterium Shewanella oneidensis, we have recently identified a previously unknown co-chaperone of the DnaK/Hsp70 chaperone system, AtcJ, that is essential for adaptation to low temperatures. AtcJ is encoded in the atcJABC operon, whose products, together with DnaK, form a protein network allowing growth at low temperature. However, how these proteins allow cold adaptation is unknown. Here, we found that AtcB directly interacts with the RNA polymerase and decreases its activity. In addition, AtcB overproduction prevents bacterial growth due to RNA polymerase inhibition. Together, these results suggest that the Atc proteins could direct the DnaK chaperone to the RNA polymerase to sustain life at low temperatures.Nonalcoholic steatohepatitis (NASH) is characterized by inflammation, hepatocellular injury, and different degrees of fibrosis. Previous studies have indicated that the transcriptional coactivator with PDZ-binding motif TAZ (WWTR1) is correlated with the increased level of liver cholesterol which suppresses TAZ proteasomal degradation and promotes fibrotic NASH by activating soluble adenylyl cyclase -calcium-RhoA pathway. However, the exact mechanism by which TAZ promotes inflammatory and hepatocyte injury has not yet been fully addressed. Reportedly, p62/Sqstm1plays a pivotal role in inflammatory and hepatocyte injury during NASH development. Here, we demonstrated that p62/Sqstm1 was overexpressed in the livers of mouse NASH models in a TAZ-dependent manner. In addition, hepatocyte-specific TAZ deletion reduced p62/Sqstm1 both in vitro and in vivo. Strikingly, luciferase reporter data demonstrated that p62/Sqstm1 is a TAZ/TEAD target gene and can be transcriptionally regulated by TAZ, indicating that hepatocyte-specific TAZ deletion downregulates p62/Sqstm1 expression in NASH.Filopodia are slender actin-rich plasma membrane protrusions that function to drive cell migration and invasion. Despite the observation of defective filopodia formation in many malignant tumors, the regulation mechanism remained unknown to date. In the present study, for the first time, we demonstrate that RAB5A, a Rab GTPase family protein, is a potent regulator of filopodia formation in pancreatic cancer cells. High expression of RAB5A was associated with filopodia formation and migration in pancreatic cancer cells. Overexpression of RAB5A promoted filopodia formation and migration in CF Pac-1 cells. In contrast, down-regulation of RAB5A expression in SW1990 cells with a high endogenous RAB5A expression level impeded the formation of filopodia. Necrostatin 2 ic50 Further analysis indicated that RAB5A was required for cdc42 activation in CF Pac-1 and SW1990 cells. Moreover, to investigate the underlying mechanism by which the activation of cdc42 mediates RAB5A-induced filopodia formation, the active state of β1-integrin was examined in cells with different expression levels of RAB5A. We observed that RAB5A regulated the accumulation of the active β1-integrin. We demonstrated that down-regulation of the expression of β1-integrin strongly suppressed filopodia formation and cdc42 activation mediated by RAB5A. These results indicate the important role of RAB5A in the regulation of filopodia formation in pancreatic cancer cells, which is dependent on the activation of cdc42 and β1-integrin.Dasatinib is a targeted cancer therapy, while programmed death ligand 1 (PD-L1) inhibitors are a form of immune checkpoint therapy used to treat various types of cancers. Several studies showed the potential efficacy of these drugs in the management of triple-negative breast cancer- an aggressive subtype of breast cancer, which can develop during pregnancy. Nevertheless, side effects of Dasatinib (DA) and PD-L1 drugs during pregnancy, especially in the early stages of embryogenesis are not explored yet. The aim of this study is to assess the individual and combined toxicity of DA and PD-L1 inhibitors during the early stages of embryogenesis and to evaluate their effect(s) on angiogenesis using the chorioallantoic membrane (CAM) model of the embryo. Our results show that embryos die at greater rates after exposure to DA and PD-L1 inhibitors as compared to their matched controls. Moreover, treatment with these drugs significantly inhibits angiogenesis of the CAM. To further elucidate key regulator genes of embryotoxicity induced by the actions of PD-L1 and DA, an RT-PCR analysis was performed for seven target genes that regulate cell proliferation, angiogenesis, and survival (ATF3, FOXA2, MAPRE2, RIPK1, INHBA, SERPINA4, and VEGFC). Our data revealed that these genes are significantly deregulated in the brain, heart, and liver tissues of exposed embryos, compared to matched control tissues. Nevertheless, further studies are necessary to evaluate the effects of these anti breast cancer drugs and elucidate their role during pregnancy.
