National Pediatrician-Scientist Collaborative Workgroup comment on new ACGME requirements' impact on pediatric physician-scientists.

BACKGROUND: The ACGME recently released its recommendation for updates to the program requirements for pediatrics. These updates proposed changes to allocation of resident clinical time and a greater emphasis on individualization. The potential impact of these changes on the training of physician-scientists is discussed. METHODS: Discussion of the proposed changes was held within the members of the National Pediatrician-Scientist Collaborative Workgroup, a group that represents scientists, trainees, program directors, chairs, and physician-scientist educators at nearly 30 residency programs from across the US with a focus on understanding and developing optimal approaches to physician-scientist training. Consideration was given to the both the personal and institutional impact of the proposal for physician-scientist development. RESULTS: Both threats and opportunities were identified. Key opportunities include the enhanced individualized training time that could be used to explore research. Threats include re-allocation of clinical training time that may strain institutions financially, expand clinical service requirements for other early career stage individuals, and alter exposure to a broad range of pediatric specialists and sub-specialists that impact career development. CONCLUSION: The NPSCW encourages consideration of the impact of changing program requirements on physician-scientist development to include ongoing discussion amongst mentors, programs, and trainees to understand and mitigate impact of new program requirements on the development of pediatrician-scientists.

Upholding Our PROMISE: Underrepresented in Medicine Pediatric Residents' Perspectives on Interventions to Promote Belonging.

PURPOSE: Underrepresented in medicine (UIM) residents experience challenges during training that threaten their sense of belonging in medicine; therefore, residency programs should intentionally implement interventions to promote belonging. This study explored UIM pediatric residents' perspectives on current residency program measures designed to achieve this goal. METHOD: The authors conducted a secondary qualitative analysis as part of a national cross-sectional study, PROmoting Med-ed Insight into Supportive Environments (PROMISE), which explored pediatric residents' experiences and perspectives during training in relation to their self-identities. A 23-item web-based survey was distributed through the Association of Pediatric Program Directors Longitudinal Educational Research Assessment Network from October 2020 to January 2021. Participants provided free-text responses to the question "What are current measures that promote a sense of belonging for the UIM community in your training program?" The authors used conventional content analysis to code and identify themes in responses from UIM participants. RESULTS: Of the 1,748 residents invited to participate, 931 (53%) residents from 29 programs completed the survey, with 167 (18%) identifying as UIM. Of the 167 UIM residents, 74 (44%) residents from 22 programs responded to the free-text question. The authors coded more than 140 unique free-text responses and identified 7 major themes: (1) critical mass of UIM residents; (2) focused recruitment of UIM residents; (3) social support, including opportunities to build community among UIM residents; (4) mentorship; (5) caring and responsive leadership; (6) education on health disparities, diversity, equity, inclusion, and antiracism; and (7) opportunities to serve, including giving back to the local community and near-peer mentorship of UIM premedical and medical students. CONCLUSIONS: This is the first national study to describe UIM pediatric residents' perspectives on interventions that promote a sense of belonging. Programs should consider implementing these interventions to foster inclusion and belonging among UIM trainees.

Perspectives from the Society for Pediatric Research: advice on sustaining science and mentoring during COVID-19.

The COVID-19 pandemic will leave an indelible mark on the careers of current medical trainees. Given the disruptions to medical education, economic impact on institutions, and the uncertainties around future job prospects, trainees are facing unprecedented challenges. This situation is especially concerning for futures of pediatric physician-scientist trainees, where concerns regarding maintaining the pipeline were well documented prior to the emergence of COVID-19. In this Perspectives article, we leverage the unique expertise of our workgroup to address concerns of physician-scientist trainees and to provide suggestions on how to navigate career trajectories in the post-COVID-19 era. We identified and addressed four major areas of concern: lack of in-person conferences and the associated decrease access to mentors and networking activities, decreased academic productivity, diminished job prospects, and mental health challenges. We also suggest actions for trainees, mentors and educational leaders, and institutions to help support trainees during the pandemic, with a goal of maintaining the pediatric physician-scientist pipeline.

Creating a 'Community of Inquiry': A Framework for Optimizing the Virtual Education Experience.

This article was migrated. The article was marked as recommended. Background: Medical educators must learn to implement technologic advances to create meaningful learning experiences, implementing media tools that are effective in meeting evolving academic needs and fostering interpersonal engagement. The increasing time constraints in a department of more than 1,600 faculty interspersed throughout a large metropolitan complex served as the catalyst for utilizing technology to create a framework for providing virtual faculty development. Objective: To use a Community of Inquiry (CoI) as a framework to guide the development of an interactive, virtual writing retreat. Methods: We used the three elements of CoI--social presence, cognitive presence, and teaching presence--to transform the curriculum and delivery method of an existing writing workshop into an interactive virtual experience. To enhance virtual teaching and learning, we created a positive climate allowing learners to project themselves into the community through discourse (social), leveraged technologies to enable construction of knowledge by individual learners (cognitive), and revamped the existing curriculum for optimal virtual learning outcomes (teaching). We evaluated its educational effectiveness via surveys based on the CoI framework. Results: The highly interactive, four-hour, virtual writing retreat was well received and serves as a model for implementing the CoI framework in other disciplines. Forty multidisciplinary faculty attended the retreat; 90% completed the entire session. In the post-session survey (50% response rate), participants rated the learning activities highly. Conclusion: Our conceptual model and practical recommendations are offered to other medical educators and faculty developers for designing a tailored CoI with effective virtual synchronous learning.

The cytosolic protein G0S2 maintains quiescence in hematopoietic stem cells.

Bone marrow hematopoietic stem cells (HSCs) balance proliferation and differentiation by integrating complex transcriptional and post-translational mechanisms regulated by cell intrinsic and extrinsic factors. We found that transcripts of G(0)/G(1) switch gene 2 (G0S2) are enriched in lineage(-) Sca-1(+) c-kit(+) (LSK) CD150(+) CD48(-) CD41(-) cells, a population highly enriched for quiescent HSCs, whereas G0S2 expression is suppressed in dividing LSK CD150(+) CD48(-) cells. Gain-of-function analyses using retroviral expression vectors in bone marrow cells showed that G0S2 localizes to the mitochondria, endoplasmic reticulum, and early endosomes in hematopoietic cells. Co-transplantation of bone marrow cells transduced with the control or G0S2 retrovirus led to increased chimerism of G0S2-overexpressing cells in femurs, although their contribution to the blood was reduced. This finding was correlated with increased quiescence in G0S2-overexpressing HSCs (LSK CD150(+) CD48(-)) and progenitor cells (LS(-)K). Conversely, silencing of endogenous G0S2 expression in bone marrow cells increased blood chimerism upon transplantation and promoted HSC cell division, supporting an inhibitory role for G0S2 in HSC proliferation. A proteomic study revealed that the hydrophobic domain of G0S2 interacts with a domain of nucleolin that is rich in arginine-glycine-glycine repeats, which results in the retention of nucleolin in the cytosol. We showed that this cytosolic retention of nucleolin occurs in resting, but not proliferating, wild-type LSK CD150(+) CD48(-) cells. Collectively, we propose a novel model of HSC quiescence in which elevated G0S2 expression can sequester nucleolin in the cytosol, precluding its pro-proliferation functions in the nucleolus.

Kruppel-like factor 4 (KLF4) promotes the survival of natural killer cells and maintains the number of conventional dendritic cells in the spleen.

The development and survival of NK cells rely on a complex, spatiotemporal gene expression pattern regulated by specific transcription factors in NK cells and tissue-specific microenvironments supported by hematopoietic cells. Here, we show that somatic deletion of the KLF4 gene, using inducible and lineage-specific cre-transgenic mice, leads to a significant reduction of NK cells (NK1.1(+) TCR-ß(-)) in the blood and spleen but not in the BM, liver, or LNs. Functional and immunophenotypic analyses revealed increased apoptosis of CD27(+/-) CD11b(+) NK cells in the spleen of KLF4-deficient mice, although remaining NK cells were able to lyse tumor target cells and produce IFN-γ. A normal recovery of adoptively transferred KLF4-deficient NK cells in WT hosts suggested that the survival defect was not intrinsic of NK cells. However, BM chimeras using KLF4-deficient mice as donors indicated that reduced survival of NK cells depended on BM-derived hematopoietic cells in the spleen. The number of CD11c(hi) DCs, which are known to support NK cell survival, was reduced significantly in the spleen of KLF4-deficient mice, likely a result of a lower number of precDC progenitor cells in this tissue. Taken together, our data suggest that the pluripotency-associated gene KLF4 is required for the maintenance of DCs in the spleen and consequently, survival of differentiated NK cells in this tissue.

Alloantibodies prevent the induction of transplantation tolerance by enhancing alloreactive T cell priming.

Circulating alloantibodies in transplant recipients are often associated with increased Ab-mediated as well as cellular rejection. We tested the hypothesis that alloantibodies facilitate cellular rejection by functioning as opsonins to enhance T cell activation using a BALB/c to C57BL/6 heart or skin transplant model. Long-term heart and skin survival induced with anti-CD154 alone or in combination with donor-specific transfusion (DST), respectively, was abrogated by the presence of anti-K(d) mAbs, and alloreactive T cell activation as well as acute rejection was observed. The prevention of graft acceptance in the skin model was dependent on anti-K(d) binding to and converting DST from tolerigenic to immunogenic. Adoptive transfer of CFSE-labeled TCR-transgenic T cells into B6 recipients treated with anti-CD154/DST revealed the ability of anti-K(d) to enhance the proliferation of anti-K(d)-specific T cells via the indirect pathway as well as of non-K(d)-reactive, recipient MHC-restricted CD4(+) and CD8(+) T cells. Thus, alloantibodies with restricted specificity are able to facilitate the indirect presentation as well as the cross-presentation of a larger repertoire of "linked" donor-derived Ags. These observations highlight the ability of alloantibodies to function not only in classical humoral rejection but also as opsonins that facilitate the CD40-CD154-independent activation of alloreactive T cells.

Memory alloreactive B cells and alloantibodies prevent anti-CD154-mediated allograft acceptance.

The impact of memory B cells and alloantibodies on the ability to induce transplantation tolerance has not been elucidated. We have developed a murine heart transplant model that isolates the contributions of functional memory B cells from memory T cells in allograft rejection. Memory 3-83 B cells with dual specificity for H-2K(k) and H-2K(b) were generated in 3-83 Igi BCR knockin (BALB/c background) mice by the transplantation of C3H (H-2K(k)) hearts in the absence of immunosuppression. To test the effect of functional memory 3-83 B cells, C3H-primed 3-83 Igi recipients were challenged with C57BL/6 hearts (H-2K(b)) at 60-90 days post-C3H heart transplant and treated with anti-CD154 mAbs. Despite immunosuppression, the C57BL/6 hearts were acutely rejected within 10-13 days and graft rejection was associated with increased frequencies of C57BL/6-specific IFN-gamma-producing T cells. Histology revealed significant numbers of infiltrating T cells, consistent with acute T cell-mediated rejection. The resistance to tolerance induction was dependent on the synergistic effects of memory 3-83 B cells and alloantibodies, whereas memory T cells are not necessary. We conclude that the combined effects of functional memory B cells and alloantibodies prevent anti-CD154-mediated graft acceptance by facilitating the CD40-CD154-independent activation of alloreactive T cells. This study provides insight into the potential ability of memory B cells and alloantibodies to prevent anti-CD154-mediated graft acceptance.