Oncology Nursing Symptom Science: Overview of the NINR, ONS, and NCI Symptom Science Colloquium.

This article provides an overview of the process, development, and evaluation of the Symptom Science Colloquium sponsored by the National Institute of Nursing Research, Oncology Nursing Society (ONS), and National Cancer Institute. This colloquium was the first of its kind to leverage the common goals of these institutes to advance oncology symptom science. Specifically, this article will identify the goals of the agencies involved and synergy in forming this collaboration, review the ONS Research Agenda that provided the blueprint for the colloquium, and offer insights and lessons learned to be used for future planning. The colloquium engaged roughly 500 participants from all levels of clinical (RNs, advanced practice nurses), educational (undergraduate, master's, doctorate), and research (students, faculty, scientists) expertise. Six featured expert speakers and 115 poster presentations focused on the latest research in symptom science, cancer survivorship, palliative and end-of-life care, and hot topics (COVID-19, health disparities). Fourteen networking sessions fostered opportunities to engage with international experts. Special awards emphasized mentee-mentor relationships and exemplary midcareer faculty. Based on this emphasis, the authors provide themes from the successful award applications as exemplars. A summary of participant satisfaction and recommendations for future collaborations to enhance and advance oncology symptom science are provided.

P. falciparum modulates erythroblast cell gene expression in signaling and erythrocyte production pathways.

Global, genomic responses of erythrocytes to infectious agents have been difficult to measure because these cells are e-nucleated. We have previously demonstrated that in vitro matured, nucleated erythroblast cells at the orthochromatic stage can be efficiently infected by the human malaria parasite Plasmodium falciparum. We now show that infection of orthochromatic cells induces change in 609 host genes. 592 of these transcripts are up-regulated and associated with metabolic and chaperone pathways unique to P. falciparum infection, as well as a wide range of signaling pathways that are also induced in related apicomplexan infections of mouse hepatocytes or human fibroblast cells. Our data additionally show that polychromatophilic cells, which precede the orthochromatic stage and are not infected when co-cultured with P. falciparum, up-regulate a small set of genes, at least two of which are associated with pathways of hematopoiesis and/or erythroid cell development. These data support the idea that P. falciparum affects erythropoiesis at multiple stages during erythroblast differentiation. Further P. falciparum may modulate gene expression in bystander erythroblasts and thus influence pathways of erythrocyte development. This study provides a benchmark of the host erythroblast cell response to infection by P. falciparum.

Biologically active alkylated coumarins from Kayea assamica.

Four coumarin derivatives, theraphins A (1), B (2), C (3), and D (4), along with three known xanthones, 2-hydroxyxanthone, 1,7-dihydroxyxanthone, and 5-hydroxy-1-methoxyxanthone, were isolated from the bark of Kayea assamica (Clusiaceae) native to Myanmar. Their structures were determined using spectroscopic and chemical techniques. The absolute configuration of 1 was established by the modified Mosher ester method. Theraphins A (1), B (2), and C (3) exhibited good cytotoxicity against Col2, KB, and LNCaP human cancer cell lines. Theraphin D (4) showed mild activity only against the KB cell line. The coumarins also exhibited mild antimalarial activities.