Apoptotic signaling clears engineered Salmonella in an organ-specific manner.

Pyroptosis and apoptosis are two forms of regulated cell death that can defend against intracellular infection. When a cell fails to complete pyroptosis, backup pathways will initiate apoptosis. Here, we investigated the utility of apoptosis compared to pyroptosis in defense against an intracellular bacterial infection. We previously engineered Salmonella enterica serovar Typhimurium to persistently express flagellin, and thereby activate NLRC4 during systemic infection in mice. The resulting pyroptosis clears this flagellin-engineered strain. We now show that infection of caspase-1 or gasdermin D deficient macrophages by this flagellin-engineered S. Typhimurium induces apoptosis in vitro. Additionally, we engineered S. Typhimurium to translocate the pro-apoptotic BH3 domain of BID, which also triggers apoptosis in macrophages in vitro. During mouse infection, the apoptotic pathway successfully cleared these engineered S. Typhimurium from the intestinal niche but failed to clear the bacteria from the myeloid niche in the spleen or lymph nodes. In contrast, the pyroptotic pathway was beneficial in defense of both niches. To clear an infection, cells may have specific tasks that they must complete before they die; different modes of cell death could initiate these 'bucket lists' in either convergent or divergent ways.

Although alive and healthy cells are essential for survival, in certain circumstances ­ such as when a cell becomes infected ­ it is beneficial for cells to deliberately die through a process known as regulated cell death. There are several types of regulated cell death, each with distinct pathways and mechanisms. However, if the initial pathway is blocked, cells can use an alternative one, suggesting that they can compensate for one other. Two forms of regulated cell death ­ named pyroptosis and apoptosis ­ can be used by infected cells to limit the spread of pathogens. However, it was not clear if these two forms or additional 'back-up' apoptosis pathways ­ which are induced when pyroptosis fails ­ are equally efficient at clearing infections and how they might vary in different cell types. To address this, Abele et al. investigated cell death in live mice infected with the bacterium Salmonella. Different organs in which the bacterium infects distinct cell types were examined. Experiments showed that pyroptosis could eliminate bacteria from both intestinal cells as well as immune cells found throughout the body, called macrophages. In contrast, apoptosis was only able to clear infection from intestinal cells. The findings can be explained by prior studies showing both apoptosis and pyroptosis lead to the same outcome in intestinal cells ­ dead cells are expelled from the body through a process called extrusion to maintain the barrier function of the intestine. However, in macrophages, the different pathways lead to different outcomes, indicating they are not entirely interchangeable. Overall, the findings of Abele et al. underscore the complexity of cellular responses to infection and the nuanced roles of different cell death pathways. This provides further evidence that cells might have specific tasks they need to complete before death in order to effectively clear an infection. These tasks may differ depending on cell type and the form of regulated cell death, and may not be equally efficient at clearing an infection.

Experience of practicing obstetrician-gynecologists in a surgical training program in total laparoscopic hysterectomy.

BACKGROUND: Advanced surgical techniques, such as total laparoscopic hysterectomy, are often challenging to acquire beyond fellowship training programs for practicing obstetrician-gynecologists. A lack of formative data currently exist for continuing medical education programs, limiting our understanding of how improvement in surgical skills and training programs occur. OBJECTIVE: This study aimed to investigate how practicing obstetrician-gynecologists acting as trainees experience a program that aims to teach them total laparoscopic hysterectomy, and to assess whether their surgical skills improve according to data from formative assessment tools and qualitative data from open-ended survey questions and in-depth interviews. STUDY DESIGN: We report a process analysis of formative data collected during a pilot implementation trial of a surgical training program targeting practicing obstetrician-gynecologists. Eleven consultant obstetrician-gynecologists and 4 experienced surgical mentors participated in 4 hospitals in Queensland, Australia. Total laparoscopic hysterectomy was performed in 700 patients over the course of the study. A total laparoscopic hysterectomy surgical mentorship training program of 10 training days with up to 3 total laparoscopic hysterectomy procedures per day was performed. Both the obstetrician-gynecologists and the surgical mentor completed a formative assessment questionnaire analyzing the trainee's performance after each surgical procedure. Mentors were formatively assessed by the Structured Training Trainer Assessment Report (STTAR) and at the completion of the study by the mini-STTAR, a summative assessment of quality of mentorship. Obstetrician-gynecologists, mentors, hospital leaders, and surgical administrative staff participated in qualitative interviews about the training program. RESULTS: Over time, there was a demonstrated improvement in trainee performance reported by both mentors and trainees in all competency assessment tool domains as the case number increased, with mentors consistently rating trainees' performance higher than the trainees themselves. Most trainees were satisfied with their mentor in all 31 areas during formative assessment, and at the end of the training, structure, attributes, and role modeling were all rated high (average score >4.5; range, 3.79-5.00), whereas training behavior was rated slightly lower at 4.1 (range, 3.79-4.45). Qualitative interviews demonstrated that the trainees found the training to be a beneficial, hands-on experience. CONCLUSION: Formative assessment clearly documented improvement in surgical skills during a total laparoscopic hysterectomy training program for consultant obstetrician-gynecologists.

Apoptotic signaling clears engineered Salmonella in an organ-specific manner.

Pyroptosis and apoptosis are two forms of regulated cell death that can defend against intracellular infection. Although pyroptosis and apoptosis have distinct signaling pathways, when a cell fails to complete pyroptosis, backup pathways will initiate apoptosis. Here, we investigated the utility of apoptosis compared to pyroptosis in defense against an intracellular bacterial infection. We previously engineered Salmonella enterica serovar Typhimurium to persistently express flagellin, and thereby activate NLRC4 during systemic infection in mice. The resulting pyroptosis clears this flagellin-engineered strain. We now show that infection of caspase-1 or gasdermin D deficient macrophages by this flagellin-engineered S. Typhimurium induces apoptosis in vitro. Additionally, we also now engineer S. Typhimurium to translocate the pro-apoptotic BH3 domain of BID, which also triggers apoptosis in macrophages in vitro. In both engineered strains, apoptosis occurred somewhat slower than pyroptosis. During mouse infection, the apoptotic pathway successfully cleared these engineered S. Typhimurium from the intestinal niche, but failed to clear the bacteria in the myeloid niche in the spleen or lymph nodes. In contrast, the pyroptotic pathway was beneficial in defense of both niches. In order to clear an infection, distinct cell types may have specific tasks that they must complete before they die. In some cells, either apoptotic or pyroptotic signaling may initiate the same tasks, whereas in other cell types these modes of cell death may lead to different tasks that may not be identical in defense against infection. We recently suggested that such diverse tasks can be considered as different cellular 'bucket lists' to be accomplished before a cell dies.

Pregnancy Outcomes in Patients After Completion of the mRNA Coronavirus Disease 2019 (COVID-19) Vaccination Series Compared With Unvaccinated Patients.

OBJECTIVE: To compare frequency of perinatal death between pregnant patients who completed the mRNA coronavirus disease 2019 (COVID-19) vaccination series and unvaccinated patients. METHODS: This retrospective cohort study included 15,865 pregnant patients who delivered 16,132 newborns after 20 weeks of gestation within a large regional health system between January 1, 2021, and December 31, 2021. Patients who received two doses of mRNA vaccine (Pfizer-BioNTech [BNT162b2] or Moderna [mRNA-1273]) were included in the vaccinated group and were compared with unvaccinated patients. Exclusions included partial vaccination, viral-vector vaccine, major congenital anomalies, and higher-order multiple gestation. Our primary outcome was perinatal death, including stillbirth and neonatal death, which was evaluated by logistic regression. Unadjusted odds ratios and adjusted odds ratios (aORs) were reported, controlling for age, body mass index (BMI), diabetes, hypertension, smoking, twin gestation, and insurance status. Propensity score matching was also performed. RESULTS: A total of 15,865 patients were included in the final analysis: 2,069 in the vaccination group and 13,796 in the control group. Only 13.0% of the cohort was included in the vaccination group; however, the vaccination rate increased over the course of the study period as the vaccine became more widely available and accepted. Vaccinated patients were older, with higher rates of people of non-Black racial non-Hispanic ethnic backgrounds, people with private insurance, and those with higher BMIs. Vaccination was associated with a lower incidence of perinatal death (0.5% vaccinated group vs 0.8% unvaccinated group, aOR 0.20 0.05-0.88). Vaccination against COVID-19 was also associated with lower rates of preterm delivery (aOR 0.63, 0.48-0.82), neonates with very low birth weight (aOR 0.35, 0.15-0.84), and neonatal intensive care unit (NICU) admission (aOR 0.66, 0.52-0.85). The association between vaccination and lower rates of perinatal death was no longer significant after propensity score matching. CONCLUSION: In a large retrospective cohort study, receipt of the primary mRNA COVID-19 vaccination series was associated with a lower rate of several adverse pregnancy outcomes, including perinatal death, preterm delivery, neonates with very low birth weight, and NICU admission. Although the decreased rates of perinatal death did not remain significant after propensity score matching, there was evidence of directional benefit for vaccinated patients.