CREB3 family of transcription factors are ER localized proteins that belong to the bZIP family. They are transported from the ER to the Golgi, cleaved by S1P and S2P proteases and the released N-terminal domains act as transcription factors. CREB3 family members regulate the expression of a large variety of genes and according to their tissue-specific expression profiles they play, among others, roles in acute phase response, lipid metabolism, development, survival, differentiation, organelle autoregulation, and protein secretion. They have been implicated in the ER and Golgi stress responses as regulators of the cell secretory capacity and cell specific cargos. In this review we provide an overview of the diverse functions of each member of the family (CREB3, CREB3L1, CREB3L2, CREB3L3, CREB3L4) with special focus on their role in the central nervous system.
Parkinson's disease (PD) is a common neurodegenerative motor disorder characterized in part by neuropathological lesions in the nigrostriatal pathway. While most cases of PD are sporadic in nature, several inherited monogenic syndromes exist that overlap clinically and pathologically with sporadic PD. Of these, loss of function mutations in DNAJC6, which encodes the protein Auxilin, cause an aggressive form of juvenile onset PD. Auxilin and its homologues are known to play a role in clathrin-mediated trafficking, which is crucial for cellular function in all eukaryotes and plays a specialized role in synaptic transmission in higher organisms. Auxilin is the major neuronal uncoating protein for clathrin-coated vesicles required for delivery of cargo from the plasma membrane and trans-Golgi network to intracellular destinations. However, how mutations in Auxilin cause PD is currently not understood. To address this problem, we generated a novel mouse model carrying an endogenous pathogenic Auxilin mutation. When bred to homozygosity, this mutation induced neurological phenotypes that phenocopy clinical features observed in patients, including motor impairments reminiscent of bradykinesia and gait problems. Mapping the interactome of Auxilin confirmed clathrin and synaptic clathrin adaptor protein interactions and also identified novel Golgi-resident interactors. Critically, all tested pathogenic mutations in Auxilin retained clathrin adaptor protein binding but lost interaction with clathrin itself. These observations describe a mechanism by which impaired clathrin-mediated trafficking in R857G Auxilin mice, both at the Golgi and the synapse, results in neuropathological lesions in the nigrostriatal pathway. Collectively, these results provide novel insights for PD pathogenesis in Auxilin mutation carriers, reinforcing a key role for clathrin-mediated trafficking in PD, and expand our understanding of the cellular function of Auxilin.
An increase in Rab1b levels induces changes in Golgi size and in gene expression. These Rab1b-dependent changes require the activity of p38 mitogen-activated protein kinase and the cAMP-responsive element binding protein consensus binding. The results show a Rab1b increase in secretory cells after stimulation and suggest that this increase is required to elicit a secretory response.
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