Innovative ideas, strategies, and resources to attract students to the pharmacy profession: Report of the 2023-2024 AACP Student Affairs Committee.

Over the past 2 decades, the Academy has witnessed an increase in new colleges and schools of pharmacy and, simultaneously, a decrease in student applications, resulting in a decline in enrollment across most institutions. Although the number of students pursuing a Doctor of Pharmacy degree has been dropping, the Academy is responsible for bolstering recruitment to effectively prepare a robust pharmacy workforce to care for our ever-growing and complex patient populations. The 2023-2024 Student Affairs Committee (SAC) was convened to explore new ideas, develop innovative strategies, and gather supportive resources that can be utilized by colleges and schools of pharmacy to attract students to the pharmacy profession. The SAC was charged with developing a framework for a video mini-series that utilizes the art of storytelling to promote the pharmacy profession to prospective students. Secondarily, the SAC was charged with developing a plan to engage with students who apply but do not ultimately get accepted into nonpharmacy health professions programs and consider recommendations for targeting pharmacy technicians to pursue a PharmD degree. To accomplish this work, we created videos and proposed other innovative tools and flexible pathways to assist in recruiting students into the pharmacy profession. We also conducted a literature and website review, engaged in professional networking across the Academy, and proposed best practices to enhance student recruitment. In addition, we offered 8 recommendations to the American Association of Colleges of Pharmacy and 7 suggestions to colleges and schools of pharmacy to attract students to the pharmacy profession.

The RNA-binding protein Msi2 regulates autophagy during myogenic differentiation.

Skeletal muscle development is a highly ordered process orchestrated transcriptionally by the myogenic regulatory factors. However, the downstream molecular mechanisms of myogenic regulatory factor functions in myogenesis are not fully understood. Here, we identified the RNA-binding protein Musashi2 (Msi2) as a myogenin target gene and a post-transcriptional regulator of myoblast differentiation. Msi2 knockdown in murine myoblasts blocked differentiation without affecting the expression of MyoD or myogenin. Msi2 overexpression was also sufficient to promote myoblast differentiation and myocyte fusion. Msi2 loss attenuated autophagosome formation via down-regulation of the autophagic protein MAPL1LC3/ATG8 (LC3) at the early phase of myoblast differentiation. Moreover, forced activation of autophagy effectively suppressed the differentiation defects incurred by Msi2 loss. Consistent with its functions in myoblasts in vitro, mice deficient for Msi2 exhibited smaller limb skeletal muscles, poorer exercise performance, and muscle fiber-type switching in vivo. Collectively, our study demonstrates that Msi2 is a novel regulator of mammalian myogenesis and establishes a new functional link between muscular development and autophagy regulation.