TIRF Microscopy to Visualize Actin and Microtubule Coupling Dynamics
Published: July 31, 2023
Abstract
Source: Henty-Ridilla, J.L., Visualizing Actin and Microtubule Coupling Dynamics In Vitro by Total Internal Reflection Fluorescence (TIRF) Microscopy. J. Vis. Exp. (2022)
This video describes TIRF, a total internal reflection microscopy-based technique to visualize actin and microtubule polymerization dynamics. The method allows the high-resolution imaging of actin and microtubule coupling dynamics in real-time, which is essential for understanding cellular crosstalks.
Protocol
1. Washing the coverslips NOTE: Wash (24 mm x 60 mm, #1.5) coverslips according to Smith et al., 2013. Arrange coverslips in a plastic slide mailer container. Submerge coverslips sequentially in the following solutions and sonicate for 30-60 min, rinsing with ddH2O 10 times in between each solution: ddH2O with one drop of dish soap; 0.1 M KOH. Store coverslips in 100% ethanol for up to 6 months. <stro…
Representative Results
Figure 1. Experimental schematics: flow chamber assembly to image acquisition. (A) Imaging chamber assembly. Top to bottom: IBIDI imaging chambers are taped along perfusion wells (denoted by arrow); the second (white) layer of tape backing (left on in the image shown to better orient users) is removed and Epoxy is applied at the edge of the perfusion chamber (arrow). Note: To more easily orient users where to pl…
Divulgations
The authors have nothing to disclose.
Materials
| 1% BSA (w/v) | Fisher Scientific | BP1600-100 | For this purpose (blocking TIRF chambers), BSA is resuspended in ddH20 and filtered through a 0.22 µm filter. |
| 1× BRB80 | Homemade | 80 mM PIPES, 1 mM MgCl2, 1 mM EGTA, pH 6.8 with KOH | |
| 80 mM PIPES, 1 mM MgCl2, 1 mM EGTA, pH 6.8 with KOH | Sigma Aldrich Inc, St. Louis, MO | G2133-50KU | Combined with catalase, aliquot and store at -80 oC until use |
| 100 µM tubulin | Cytoskeleton Inc, Denver, CO | T240 | Homemade tubulins should be recycled before use to remove polymerization-incompetent tubulin (Hyman et al. (1992)29; Li and Moore (2020)30 ). Commercially available tubulins are often too dilute to recycle but function well if resuspended according to the manufacturer’s instructions and pre-cleared via ultracentrifugation (278,000 × g) for 60 min, before use. |
| 100 mM ATP | Gold Biotechnology Inc, Olivette, MO | A-08 | Resuspended in ddH20 (pH 7.5) and filter sterilized. |
| 100 mM GTP | Fisher Scientific | AC226250010 | Resuspended in 1× BRB80 (pH 6.8) and filter sterilized. |
| 120-150 mW solid-state lasers | Leica Microsystems | 11889151; 11889148 | |
| 2 mg/mL catalase | Sigma Aldrich Inc, St. Louis, MO | C40-100 | Combined with glucose oxidase, aliquot and store at -80 oC until use |
| 2× TIRF buffer | Homemad | 2× BRB80, 100 mM KCl, 20 mM DTT, 80 mM glucose, 0.5% (v/v) methylcellulose (4,000 cp); Note: 1 µL of 0.1M GTP and 1 µL of 0.1M ATP added separately to TIRF reactions to avoid repeated freeze-thaw cycles. | |
| 24 × 60 mm, #1.5 coverglass | Fisher Scientific, Waltham, MA | 22-266882 | Coverglass must be extensively washed before use (Smith et al. (2014)22 ) |
| 37 oC heatblock | |||
| 37 oC water bath | |||
| 5 mg/mL Streptavidin (600x stock) | Avantor, Philadelphia, PA | RLS000-01 | Resuspended in Tris-HCl (pH 8.8); dilute the aliquot to 1× in HEK buffer on day of use |
| 5 min Epoxy resin and hardener | Loctite, Rocky Hill, CT | 1365736 | Combined resin and hardener may take up to 30 min to cure. |
| 50% biotinylated-GpCpp microtubule seeds | Cytoskeleton Inc; Homemade | T333P | (optional) GppCpp or Taxol stabilized microtubule seeds can more efficiently mediate microtubule polymerization. Taxol and GppCpp stabilize microtubules in different ways that can affect the microtubule lattice structure and the ability of certain regulatory proteins to bind to the stabilized portion of the microtubule. A method to make diverse kinds of microtubule seeds is outlined in Hyman et al. (1992). |
| 70 C incubator | |||
| Actin mix stock | Homemade; this protocol | A 12.5 µM actin mix comprised of labeled (fluorescent and biotinylated) and unlabeled actin for up to six reactions. 2 µL of stock is used in the final TIRF reaction. The final concentration of actin used in each reaction is 0.5 µM (10% Alexa-647; 0.09% biotin-labeled). | |
| Appropriate buffer controls | Homemade | Combination of buffers from all proteins being assessed | |
| Biotin-PEG-silane (MW 3,400) | Laysan Bio Inc | biotin-PEG-SIL-3400 | Dispensed into 2-5 mg aliquots, backfilled with nitrogen, parafilmed closed, and stored at -20 C with desiccant until use |
| Biotinylated actin | Cytoskeleton Inc; Homemade | AB07 | Biotin-actin is made by labeling on lysine residues and thus assumed to be at least 100% labeled, but varies with different lots/preparations. Optimal biotinylated actin concentrations must be empirically determined for particular uses/experimental designs. Higher concentrations permit more efficient tracking, but may impede polymerization or interactions with regulatory proteins. Here, a small percentage (0.09% or 900 pM) biotinylated actin is present in the final TIRF reaction. |
| Dish soap | Dawn, Procter and Gamble, Cincinnati, OH | For unknown reasons, the blue version cleans coverslips more efficiently than other available colors. | |
| Dry ice | |||
| Fluorescently labeled actin | Cytoskeleton Inc; Homemade | AR05 | Homemade fluorescently labeled-actin is stored in G-buffer supplemented with 50% glycerol at -20 C (Spudich et al. (1971) 47; Liu et al. (2022)48 ). Fluorescently-labeled actin is dialyzed against G-buffer and precleared via ultracentrifugation for 60 min at 278,000 × g before use. |
| Fluorescently labeled tubulin | Cytoskeleton Inc | TL488M, TLA590M, TL670M | Resuspended in 20 µL 1× BRB80 (10 µM final concentration) and pre-cleared via ultracentrifugation (278,000 × g) for 60 min, before use. |
| G-buffer | Homemade | 3 mM Tris-HCl (pH 8.0), 0.2 mM CaCl2, 0.5 mM DTT, 0.2 mM ATP | |
| HEK Buffer | Homemade | 20 mM HEPES (pH 7.5), 1 mM EDTA (pH 8.0), 50 mM KCl | |
| Ice | |||
| Ice bucket | |||
| Imaging chamber | IBIDI, Fitchburg, WI | 80666 | Order chambers with no bottom to utilize different coverslip coatings |
| iXon Life 897 EMCCD camera | Andor, Belfast, Northern Ireland | 8114137 | |
| LASX Premium microscope software | Leica Microsystems | 8114137 | |
| Methylcellulose (4,000 cp) | Sigma Aldrich Inc | M0512 | |
| Microscope base equipped with TIRF module | Leica Microsystems, Wetzlar, Germany | 11889146 | |
| mPEG-silane (MW 2,000) |
Tags
Citer Cet Article
TIRF Microscopy to Visualize Actin and Microtubule Coupling Dynamics. J. Vis. Exp. (Pending Publication), e21456, doi: (2023).