Personal Strategic Plan: An Innovative Assignment for the Undergraduate Capstone Strategy Course

In undergraduate business education, the high expectation and hope is that students will graduate prepared to meet the challenges of a complex business work world. Most business schools offer the capstone Business Strategy course, which typically includes a combination of lectures and exercises with a heavy emphasis on case studies and industry analysis, as well as one of the Strategy Game simulations. We believe the Strategy course can be improved by using the Personal Strategic Plan (PSP), an exercise requiring students to apply analytical tools to their own lives and career plans. We offer background on the Strategy course, challenges and opportunities, a description of the PSP, and student feedback

A proteomic screen of neuronal cell-surface molecules reveals iglons as structurally conserved interaction modules at the synapse

In the developing brain, cell-surface proteins play crucial roles, but their protein-protein interaction network remains largely unknown. A proteomic screen identified 200 interactions, 89 of which were not previously published. Among these interactions, we find that the IgLONs, a family of five cell-surface neuronal proteins implicated in various human disorders, interact as homo- and heterodimers. We reveal their interaction patterns and report the dimeric crystal structures of Neurotrimin (NTRI), IgLON5, and the neuronal growth regulator 1 (NEGR1)/IgLON5 complex. We show that IgLONs maintain an extended conformation and that their dimerization occurs through the first Ig domain of each monomer and is Ca2+ independent. Cell aggregation shows that NTRI and NEGR1 homo- and heterodimerize in trans. Taken together, we report 89 unpublished cell-surface ligand-receptor pairs and describe structural models of trans interactions of IgLONs, showing that their structures are compatible with a model of interaction across the synaptic cleft. Many aspects of synapse formation, specification, and maturation rely on interactions among a rich repertoire of cell-surface glycoproteins with adhesive and repulsive properties. Although the identity of these proteins is known, their network of interactions remains largely untapped. Ranaivoson et al. have identified a number of protein-protein interactions and have determined the structures of three members of the IgLONs, a family of five proteins of the immunoglobulin superfamily that has recently been implicated in a wide range of human disease

Homeostatic IL-13 in healthy skin directs dendritic cell differentiation to promote TH2 and inhibit TH17 cell polarization.

The signals driving the adaptation of type 2 dendritic cells (DC2s) to diverse peripheral environments remain mostly undefined. We show that differentiation of CD11blo migratory DC2s-a DC2 population unique to the dermis-required IL-13 signaling dependent on the transcription factors STAT6 and KLF4, whereas DC2s in lung and small intestine were STAT6-independent. Similarly, human DC2s in skin expressed an IL-4 and IL-13 gene signature that was not found in blood, spleen and lung DCs. In mice, IL-13 was secreted homeostatically by dermal innate lymphoid cells and was independent of microbiota, TSLP or IL-33. In the absence of IL-13 signaling, dermal DC2s were stable in number but remained CD11bhi and showed defective activation in response to allergens, with diminished ability to support the development of IL-4+GATA3+ helper T cells (TH), whereas antifungal IL-17+RORγt+ TH cells were increased. Therefore, homeostatic IL-13 fosters a noninflammatory skin environment that supports allergic sensitization