The polyglutamine amyloid nucleus in living cells is a monomer with competing dimensions of order

Kandola, Tej; Zhang, Jiahui; Venkatesan, Shriram; Lerbakken, Brooklyn; Blanck, Jillian F; Wu, Jianzheng; Unruh, Jay R.; Berry, Paula; Lange, Jeffrey J.; Schulze, Alex Von; Box, Andrew; Cook, Malcolm; Sagui, Celeste; Halfmann, Randal

doi:10.1101/2021.08.29.458132

Cited by 6 publications

(7 citation statements)

References 141 publications

(244 reference statements)

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“…To test if a high local concentration suffices for CARD9 CARD subunits to organize into BCL10 polymer nuclei, we substituted the coiled-coil region with an inert and well-characterized homomultimeric domain, μNS ( Schmitz et al, 2009 ). This domain forms stable condensates that drive its fusion partner to very high local concentration ( Figure 3A ) without affecting global expression levels ( Figure 3—figure supplement 2D ), and thereby eliminates intermolecular entropic contributions to nucleation barriers even at low expression ( Kandola et al, 2021 ). Expressing the CARD9 CARD -μNS-mCardinal fusion should trigger the high-AmFRET state of any yeast cell expressing either CARD9 CARD - or BCL10-mEos3.1 above their respective solubility thresholds.…”

Section: Resultsmentioning

confidence: 99%

A nucleation barrier spring-loads the CBM signalosome for binary activation

Gama

Miller

Lange

et al. 2022

eLife

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Immune cells activate in binary, switch-like fashion via large protein assemblies known as signalosomes, but the molecular mechanism of the switch is not yet understood. Here, we employed an in-cell biophysical approach to dissect the assembly mechanism of the CARD-BCL10-MALT1 (CBM) signalosome, which governs NF-κB activation in both innate and adaptive immunity. We found that the switch consists of a sequence-encoded and deeply conserved nucleation barrier to ordered polymerization by the adaptor protein BCL10. The particular structure of the BCL10 polymers did not matter for activity. Using optogenetic tools and single-cell transcriptional reporters, we discovered that endogenous BCL10 is functionally supersaturated even in unstimulated human cells, and this results in a predetermined response to stimulation upon nucleation by activated CARD multimers. Our findings may inform on the progressive nature of age-associated inflammation, and suggest that signalosome structure has evolved via selection for kinetic rather than equilibrium properties of the proteins.

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Section: Resultsmentioning

confidence: 99%

A nucleation barrier spring-loads the CBM signalosome for binary activation

Gama

Miller

Lange

et al. 2022

eLife

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“…However, the sidechain interaction energy somewhat reduces the initial cost below 2Δ s and increases the attractive energy of subsequent molecules. The nucleation barrier can be further lowered along the two-sheet pathway if the molecules are long enough to form two β -strands (46).…”

Section: Resultsmentioning

confidence: 99%

“…However, the sidechain interaction energy somewhat reduces the initial cost below 2∆s and increases the attractive energy of subsequent molecules. The nucleation barrier can be further lowered along the two-sheet pathway if the molecules are long enough to form two β -strands (46). While our simulations only considered polyglutamine homopolymers, insight into the effect of amino acid sequence can be obtained from the barrier heights given by Eqs.…”

Section: Multi-layered Fibrils Have a Bigger Conformational Entropy P...mentioning

confidence: 99%

Conformational entropy limits the transition from nucleation to elongation in amyloid aggregation

Phan

Schmit

2020

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The formation of amyloid fibrils in Alzheimer's disease and other neurodegenerative disorders is limited by a slow nucleation step due to the entropic cost to initiate the ordered cross-β structure. While the barrier can be lowered if the molecules maintain conformational disorder, poorly ordered clusters provide a poor binding surface for new molecules. To understand these opposing factors, we used all-atom simulations to parameterize a lattice model that treats each amino acid as a binary variable with β-sheet and non-β states. We find that the optimal degree of order in a nucleus depends on protein concentration. Low concentration systems require more ordered nuclei to capture infrequent monomer attachments. The nucleation phase transitions to the elongation phase when the β-sheet core becomes large enough to overcome the initiation cost, at which point further ordering becomes favorable and the nascent fibril efficiently captures new molecules.

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“…To test if a high local concentration indeed suffices for CARD9 CARD subunits to organize into BCL10 polymer nuclei, we substituted the coiled coil region with an inert and well-characterized homomultimeric domain, μNS (Schmitz et al, 2009). This domain forms stable condensates that drive its fusion partner to very high local concentration (Fig 3A), and thereby eliminates intermolecular entropic contributions to nucleation barriers (Kandola et al, 2021). Expressing the CARD9 CARD -μNS fusion should force to high-AmFRET any cells expressing either CARD9 CARD - or BCL10-mEos3.1 above their respective concentration thresholds for polymerization.…”

Section: Resultsmentioning

confidence: 99%

A nucleation barrier spring-loads the CBM signalosome for binary activation

Gama

Miller

Lange

et al. 2022

Preprint

Self Cite

View full text Add to dashboard Cite

Immune cells activate in a binary, switch-like fashion that involves proteins polymerizing into large complexes known as signalosomes. The switch-like nature of signalosome formation has been proposed to result from large energy barriers to polymer nucleation. Whether such nucleation barriers indeed drive binary immune responses has not yet been shown. Here, we employed an in-cell biophysical approach to dissect the assembly mechanism of the CARD-BCL10-MALT1 (CBM) signalosome, a key determinant of transcription factor NF-κB activation in both innate and adaptive immunity. We found that the adaptor protein BCL10 encodes an intrinsic nucleation barrier, and that this barrier has been conserved from cnidaria to humans. Using optogenetic tools and a single-cell transcriptional reporter of NF-κB activity, we further revealed that endogenous human BCL10 is supersaturated even in unstimulated cells, indicating that the nucleation barrier operationally stores energy for subsequent activation. We found that upon stimulation, BCL10 nucleation by CARD9 multimers triggers self-templated polymerization that saturates NF-κB activation to produce a binary response. Pathogenic mutants of CARD9 that cause human immunodeficiencies eliminated nucleating activity. Conversely, a hyperactive cancer-causing mutation in BCL10 increased its spontaneous nucleation. Our results indicate that unassembled CBM signalosome components function analogously to a spring-loaded mousetrap, constitutively poised to activate NF-κB through irrevocable polymerization. This finding may inform our understanding of the root causes and progressive nature of pathogenic and age-associated inflammation.

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The polyglutamine amyloid nucleus in living cells is a monomer with competing dimensions of order

Cited by 6 publications

References 141 publications

A nucleation barrier spring-loads the CBM signalosome for binary activation

A nucleation barrier spring-loads the CBM signalosome for binary activation

Conformational entropy limits the transition from nucleation to elongation in amyloid aggregation

A nucleation barrier spring-loads the CBM signalosome for binary activation

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