Student-Authored Autopsy Reports of Anatomical Donors: Their First Patients.

The preparation of student-authored autopsy reports of anatomical donors was added to the Gross Anatomy course to integrate the basic and clinical sciences and determine whether students considered this early clinical exposure to be a valuable experience. All donors were scanned using computerized tomography (CT) and student groups received the scan of their donor and a report written by a radiologist. As students dissected, they took photographs and biopsies of pathological findings that were processed for microscopic evaluation. Following consultation with pathologists and radiologists, each group prepared an autopsy report that proposed a cause of death supported with macroscopic, microscopic, and CT images. Cardiovascular events and cancer were the most common. Autopsy reports were evaluated by the faculty and each student group received feedback with respect to content, accuracy, and completeness and whether faculty agreed with students' proposed cause of death. A majority of students answering an anonymous survey indicated that this exercise was valuable or somewhat valuable, but did not agree that preparation of the autopsy report resulted in their being more engaged during the course. Students agreed or somewhat agreed that the exercise should be repeated next year, that they gained insight into the clinical manifestations of disease, that they were able to interpret the CT scan themselves, that meeting with a pathologist was interesting, and that the time required to prepare the report was adequate. Since autopsy reports prepared by students are feasible and students found it to be a valuable experience, we suggest that medical schools add this to Gross Anatomy courses to introduce clinical material and increase clinical relevance.

Trib3 Is Elevated in Parkinson's Disease and Mediates Death in Parkinson's Disease Models.

Parkinson's disease (PD) is characterized by the progressive loss of select neuronal populations, but the prodeath genes mediating the neurodegenerative processes remain to be fully elucidated. Trib3 (tribbles pseudokinase 3) is a stress-induced gene with proapoptotic activity that was previously described as highly activated at the transcriptional level in a 6-hydroxydopamine (6-OHDA) cellular model of PD. Here, we report that Trib3 immunostaining is elevated in dopaminergic neurons of the substantia nigra pars compacta (SNpc) of human PD patients. Trib3 protein is also upregulated in cellular models of PD, including neuronal PC12 cells and rat dopaminergic ventral midbrain neurons treated with 6-OHDA, 1-methyl-4-phenylpyridinium (MPP+), or α-synuclein fibrils (αSYN). In the toxin models, Trib3 induction is substantially mediated by the transcription factors CHOP and ATF4. Trib3 overexpression is sufficient to promote neuronal death; conversely, Trib3 knockdown protects neuronal PC12 cells as well as ventral midbrain dopaminergic neurons from 6-OHDA, MPP+, or αSYN. Mechanism studies revealed that Trib3 physically interacts with Parkin, a prosurvival protein whose loss of function is associated with PD. Elevated Trib3 reduces Parkin expression in cultured cells; and in the SNpc of PD patients, Parkin levels are reduced in a subset of dopaminergic neurons expressing high levels of Trib3. Loss of Parkin at least partially mediates the prodeath actions of Trib3 in that Parkin knockdown in cellular PD models abolishes the protective effect of Trib3 downregulation. Together, these findings identify Trib3 and its regulatory pathways as potential targets to suppress the progression of neuron death and degeneration in PD. SIGNIFICANCE STATEMENT: Parkinson's disease (PD) is the most common neurodegenerative movement disorder. Current treatments ameliorate symptoms, but not the underlying neuronal death. Understanding the core neurodegenerative processes in PD is a prerequisite for identifying new therapeutic targets and, ultimately, curing this disease. Here, we describe a novel pathway involving the proapoptotic protein Trib3 in neuronal death associated with PD. These findings are supported by data from multiple cellular models of PD and by immunostaining of postmortem PD brains. Upstream, Trib3 is induced by the transcription factors ATF4 and CHOP; and downstream, Trib3 interferes with the PD-associated prosurvival protein Parkin to mediate death. These findings establish this new pathway as a potential and promising therapeutic target for treatment of PD.