Fig. 1 Reconstitution of DCV membrane fusion.

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Volume 113, Issue 6, Pages (September 2017)

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Fig. 1 Reconstitution of DCV membrane fusion. Reconstitution of DCV membrane fusion. (A) Western blots of the postnuclear supernatant (PNS), postmitochondrial supernatant (PMS), and individual fractions of the iodixanol gradient. Fraction 9 containing the DCV content marker secretogranin was collected as DCVs. DCVs are also enriched in the calcium-interacting proteins syt-1, syt-9, CAPS-1, and CAPS-2. Contamination by mitochondria [succinate-ubiquinone oxidoreductase (SQR)] and endoplasmic reticulum (calnexin) is minimally detected in the DCV fraction. (B) Fusion of purified DCVs with liposomes containing syntaxin-1a (residues 183 to 288):SNAP-25 at a lipid/protein ratio of 500 (black) and a lipid composition of porcine brain PC (bPC):porcine brain PE (bPE):porcine brain PS (bPS):cholesterol (Chol):PI:PI(4,5)P2:Rh-DOPE:NBD-DOPE (23.5:23.5:15:30:4:1:1.5:1.5). Lipid mixing (NBD dequenching) traces shown are averages of four repeated experiments. The presence of synaptobrevin-2 (residues 1 to 96) (syb96) inhibitor peptide (2 mM) abolishes lipid mixing (red). See Materials and Methods for expanded definition of the abbreviated lipid names used here. (C) Single fusion event of NPY-Ruby–labeled DCV with a planar supported bilayer containing syntaxin-1a (syx) (residues 183 to 288):SNAP-25 (lipid/protein = 3000). The black line is an intensity trace of NPY-Ruby fluorescence. The initial increase is caused by binding of the DCV to the planar bilayer within the total internal reflection fluorescence (TIRF) field of the microscope. This intensity is constant during docking; fusion begins with an abrupt decrease, sharp increase, and then following decay in fluorescence to baseline. As described in detail in fig. S1 and the two-step fusion/diffusion model in the Supplementary Materials, this profile reflects collapse of the DCV into the planar bilayer, where NPY-Ruby initially moves forward in the TIRF field and then diffuses away beneath the bilayer. (D) Docking of DCVs to planar supported bilayers that differ in target SNARE (t-SNARE) content in the absence (black) and presence (red) of Ca2+. Syb96 inb refers to the presence of the inhibitor peptide. The total number of events in each case is shown in table S1. dSN25 refers to dodecylated SNAP-25. (E) Docking as a function of [Ca2+] (black) or [Mg2+] (blue) in the single-vesicle planar supported bilayer assay with a K1/2 [Ca2+] of 236 ± 46 μM. Table S2 contains a summary of the total number of docking and fusion events. (F) Delay time between docking and fusion (ΔtD) at different [Ca2+] (black, 100 μM EDTA; red, 50 μM Ca2+; green, 100 μM Ca2+; cyan, 150 μM Ca2+; blue, 200 μM Ca2+) shown as cumulative distribution functions of single DCV fusion events normalized to the fusion probability. The kinetics were fit with a parallel reaction model N(t) = N(1 − e−kt)m, where N is the fusion probability, k is the rate constant, and m is the number of parallel reactions occurring (40). Summary of fit values is shown in table S3. Cumulative distribution functions for additional (higher) [Ca2+] and [Mg2+] are shown in fig. S3. (G) The fusion probabilities (black) and rate constants (red) for parallel reactions are shown as functions of [Ca2+] with K1/2 [Ca2+] of 60 ± 8 μM and 61 ± 8 μM, respectively. For membranes containing syntaxin-1a (residues 183 to 288):SNAP-25 (C to G), the lipid composition was bPC:bPE:bPS:Chol:PI:PI(4,5)P2 (25:25:15:30:4:1) for all experiments. (H) The effect on docking and fusion of DCVs when PI(4,5)P2 is increased or decreased in the planar bilayers containing bPC:bPE:bPS:Chol:[PI + PI(4,5)P2] (25:25:15:30:5) or in the absence of charged lipids [bPC:bPE:Chol (35:35:30)]. Summaries of docking and fusion events and fitting results of fusion kinetics are shown in tables S5 and S6, respectively. Alex J. B. Kreutzberger et al. Sci Adv 2017;3:e1603208 Copyright © 2017 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).