Peter Walter, UCSF IRE1 Signaling Affects Cell Fate during the Unfolded Protein Response

Peter Walter, UCSF IRE1 Signaling Affects Cell Fate during the Unfolded Protein Response Jenn Hou Burke Group Literature Seminar November 19 th 2016

Protein Synthesis Pathway 4. Final Destination: proteins are secreted from the cell or reside as transmembrane proteins. 3. Golgi Apparatus: proteins are posttranslationally modified. 2. Endoplasmic Reticulum: ribosomes translate mrna into secretory and transmembrane proteins. 1. Nucleus: genes are transcribed into mrna. Image from: http://www.nature.com/scitable/topicpage/how-do-proteins-move-through-the-golgi-14397318

What is the Unfolded Protein Response (UPR)? Protein misfolding: Glucose deprivation Calcium dysregulation Viral infection Hypoxia Aggregation of misfolded proteins leads to ER stress. Persistent ER stress turns on the UPR. Unmitigated UPR manifests in: Cancer Neurodegenerative disorders Diabetes Kaufman RJ et al. (2002) The unfolded protein response in nutrient sensing and differentiation. Nature Reviews Molecular Cell Biology. 3: 411-421. www.mun.ca/biology/desmid/brian/biol2060/biol2060-12/12_08.jpg

UPR is Important for Homeostasis in Secretory Cells Neutrophil Secretory Cells Plasma B cells Salivary gland cells Pancreatic beta cells Prominent ER Images from: http://drpersian.blogfa.com/9002.aspx http://intranet.tdmu.edu.ua/data/kafedra/internal/histolog/classes_stud/en/stomat/ptn/1/06%20blood.%20lymph.%20hematopoie sis..files/image011.jpg

Key Mediators of the UPR Hetz C. et al. (2011). The unfolded protein response: integrating stress signals through the stress sensor IRE1α. Physiological Reviews. 91(4): 1219-1243.

The Three Branches of the UPR Exhibit Different Kinetic Behaviors to Protect or Kill Cells

Model for IRE1 Activation 1. IRE1 promoters reversibly associate and make closed dimers. 2. Binding of unfolded proteins to ER luminal domains, drives oligomerization. 3. Trans-autophosphorylation promotes association between dimers. 4. Association into oligomers. Image from: Walter P and Ron D. (2011) The unfolded protein response: from stress pathway to homeostatic regulation. Science. 334: 1081-1086.

ER Stress Induces IRE1 Mediated Splicing of Xbp-1 Does IRE1 mediated splicing of Xbp-1 persist in the presence of sustained ER stress? Tunicamycin Inhibits N-linked glycosylation Image from: http://www.sigmaaldrich.com/catalog/product/sigma/t7765?lang=en&region=us

IRE1 Mediated Splicing of Xbp-1 Diminishes after Sustained ER Stress Tunicamycin Inhibits N-linked glycosylation HEK293 Cells Thapsigargin Blocks ER Ca 2+ Pump At later time points where IRE1 signaling is turned off, do cells still produce misfolded proteins? Image from: http://www.sigmaaldrich.com/catalog/product/sigma/t7765?lang=en&region=us http://www.sigmaaldrich.com/catalog/product/sigma/t9033?lang=en&region=us

Cells Continue to Produce Misfolded Proteins during Persistent ER Stress HEK293 Cells + tunicamycin VCAM-1 Vascular Cell Adhesion Molecule 1 How do the kinetics of the other two branches of the unfolded protein response differ from IRE1 signaling? Steinman L. (2012) The discovery of natalizumab, a potent therapeutic for multiple sclerosis. J. Cell. Biol. 199(3): 413-6.

The Three Branches of the UPR Exhibit Different Kinetic Behaviors to Protect or Kill Cells

Atf6 Activation Persists during Continual ER Stress BiP mrna = HSP70 ER chaperone Tunicamycin: Inhibits N-linked glycosylation Thapsigargin: Blocks ER Ca 2+ Pump Wang M and Kaufman RJ. (2014) The impact of the endoplasmic reticulum protein-folding environment on cancer development. Nature Reviews Cancer. 14: 581-597.

PERK Activation Does Not Decrease during Continual ER Stress Chop mrna = increases expression of proapoptosis genes Tunicamycin: Inhibits N-linked glycosylation Thapsigargin: Blocks ER Ca 2+ Pump Hetz C et al. (2013) Targeting the unfolded protein response in disease. Nature Reviews Drug Discovery. 12.9: 703-719.

Generation of a Chemically Regulated IRE1 Mutant to Investigate the Downstream Effects of IRE1 Signaling ATP-Binding Domain ATP Analog Human IRE1 (I642G) Mutant: Mutate ATP binding domain Mutation disrupts kinase activity INM-PP1 allosterically turns on RNAse without the need for ER stress

1NM-PP1 Maintains IRE1 mediated Xbp-1 mrna Splicing IRE1 Mutant (I642G) HEK293 Cells 1NM-PP1 Kellog D. (2000). Chemical genetics: new tools for understanding signaling networks. Nature Cell Biology 2: E180-E181.

Xbp-1 mrna splicing (%) 1NM-PP1 Maintains IRE1 mediated Xbp-1 mrna Splicing 1NM-PP1 Kellog D. (2000). Chemical genetics: new tools for understanding signaling networks. Nature Cell Biology 2: E180-E181.

Sustained IRE1 Signaling Promotes Cell Viability Constant ER Stress Keeps IRE1 On Arrows indicate statistical significance.

Retinitis Pigmentosa Leads to Blindness WT P23H Autosomal dominant Proline 23 to histidine mutation P23H photoreceptors atrophy Images from: http://drstevensoong.com/retinitis-pigmentosa/ http://institutoholofotes.org.br/retinose-pigmentar/ http://iovs.arvojournals.org/data/journals/iovs/932940/z7g0080656430002.jpeg

Mutant Retinal Cells Display Decreased Cytoprotective BiP and Increased ProApoptotic Chop Levels

Sustained UPR Leads to Retinal Degeneration

Conclusions The three branches of the UPR exhibit different kinetics: IRE1 signaling is immediate and transient ATF6 signaling persists PERK signaling is sustained Generated an inducible IRE1 signaling mutant that demonstrates constant activity Sustained IRE1 activity promotes cell viability Critiques: Evaluate additional indicators for cell physiology in sustained IRE1 signaling model (cresyl violet staining, and MTT assay) in terms of ER function (post-translational modifications). Test if sustained IRE1 activation in the retinitis pigmentosa rat model would protect against retinal degeneration.