Difference between revisions of "Laser Capture Microscopy (LCM)"
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+ | ==Overview== | ||
+ | |||
+ | [https://houptlab.org/talks/LCM_of_VTA-SN.pptx.zip Example Powerpoint] with videos and calibration images. | ||
+ | |||
==Supplies for LCM== | ==Supplies for LCM== | ||
− | + | ===CapSure Caps=== | |
+ | |||
+ | |||
+ | [https://www.thermofisher.com/us/en/home/life-science/gene-expression-analysis-genotyping/laser-capture-microdissection/laser-capture-microdissection-lcm-slides-accessories/laser-capture-microdissection-lcm-caps.html ThermoFisher LCM site] | ||
+ | |||
+ | * [https://www.thermofisher.com/order/catalog/product/LCM0213 LCM0213 caps] and alignment tray and incubation block (dont know if we need all that) | ||
+ | |||
+ | * [https://www.thermofisher.com/order/catalog/product/LCM0213 LCM0214 32 caps] $560 | ||
− | [http://www.instrumedics.com Instrumedics Inc.] | + | * [https://www.thermofisher.com/order/catalog/product/LCM0215 LCM0215 160 caps] $2400 |
+ | |||
+ | ===Cryo-Jane System for Adhesive Slides=== | ||
+ | |||
+ | <del>[https://web.archive.org/web/*/http://www.instrumedics.com/ Instrumedics Inc.] | ||
5918 Evergreen Blvd. | 5918 Evergreen Blvd. | ||
St. Louis, Mo 63134 | St. Louis, Mo 63134 | ||
Phone: 314-522-8671 | Phone: 314-522-8671 | ||
Fax: 314-522-6360 | Fax: 314-522-6360 | ||
− | email: sales@instrumedics.com | + | email: sales@instrumedics.com</del><br> |
+ | Now part of [https://shop.leicabiosystems.com/us/histology-consumables/ancillaries/pid-tape-transfer-system Leica Biosystems] | ||
− | ( | + | (prices updated 2022) |
− | Adhesive-Coated Slides (125/box) # | + | Adhesive-Coated Slides CFSA 1X Slides White (125/box) item # 39475208 $375 |
+ | |||
+ | Adhesive Tape Windows 1x3 Slides (RL200per) item #39475214 $114 | ||
+ | |||
+ | see also [https://www.emsdiasum.com/cryojane-the-cryostat-frozen-sectioning-aid-system Electron Microscopy Sciences page] | ||
+ | |||
+ | [https://www.emsdiasum.com/microscopy/technical/manuals/62800.pdf CryoJane Manual] | ||
+ | |||
+ | video: [https://youtu.be/nkzGdc0IAEY Univ Vermont] | ||
− | |||
==Protocol for Amygdala Regions == | ==Protocol for Amygdala Regions == | ||
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Subsequent to X-Gal staining, the sections were washed in DEPC-dH2O for 5 min and dehydrated by the following procedure: 70% ethanol for 30 s, 95% ethanol for 30 s, 100% ethanol for 30 s, xylene for 5 min, air dried in a fume hood for 15 min, and then desiccated with Drierite (W.A. Hammond Drierite, Xenia, OH) for 1 h. X-Gal stained cells in the CeA, cortex and hippocampus were microdissected using the PixCell II LCM system (Arcturus, Mountain view, CA). A 7 um diameter laser spot, a 10 ms laser pulse duration, and a 85 mW laser power were used for the microdissection. Cells from cortex and hippocampus were included as positive controls, because those areas have previously been reported to have high levels of c-Fos and lacZ expression (Smeyne et al., 1992b and 1993). Total RNA was extracted from the LCM samples with the Total RNA Microprep Kit (Stratagene, La Jolla, CA) according to the manufacturer’s protocols. RT-PCR using primer pairs for c-Fos and β-actin was performed by using the OneStep RT-PCR Kit (Qiagen, Valencia, CA) as described above. The total RNA extract from each LCM sample of single cells was used in each RT-PCR reaction (15-20 single cells for β-actin and 30-40 single cells for c-Fos). | Subsequent to X-Gal staining, the sections were washed in DEPC-dH2O for 5 min and dehydrated by the following procedure: 70% ethanol for 30 s, 95% ethanol for 30 s, 100% ethanol for 30 s, xylene for 5 min, air dried in a fume hood for 15 min, and then desiccated with Drierite (W.A. Hammond Drierite, Xenia, OH) for 1 h. X-Gal stained cells in the CeA, cortex and hippocampus were microdissected using the PixCell II LCM system (Arcturus, Mountain view, CA). A 7 um diameter laser spot, a 10 ms laser pulse duration, and a 85 mW laser power were used for the microdissection. Cells from cortex and hippocampus were included as positive controls, because those areas have previously been reported to have high levels of c-Fos and lacZ expression (Smeyne et al., 1992b and 1993). Total RNA was extracted from the LCM samples with the Total RNA Microprep Kit (Stratagene, La Jolla, CA) according to the manufacturer’s protocols. RT-PCR using primer pairs for c-Fos and β-actin was performed by using the OneStep RT-PCR Kit (Qiagen, Valencia, CA) as described above. The total RNA extract from each LCM sample of single cells was used in each RT-PCR reaction (15-20 single cells for β-actin and 30-40 single cells for c-Fos). | ||
+ | |||
+ | ==Houpt Lab LCM Operating Procedure== | ||
+ | |||
+ | |||
+ | |||
+ | ===Startup=== | ||
+ | |||
+ | |||
+ | 1. Turn on power for Samsung monitor, VGA up-converter,and MTI camera | ||
+ | |||
+ | 2. Turn on power for PixCell II Microscope | ||
+ | |||
+ | 3. turn on power for Controller (very stiff switch!) | ||
+ | |||
+ | |||
+ | |||
+ | ===Dissection=== | ||
+ | |||
+ | 1. Place slide on stage, covering up the "I" shaped vacuum port | ||
+ | |||
+ | 2. Engage vacuum on Controller, to secure slide to stage | ||
+ | |||
+ | 3. Use "Prep strip" on slide to clean up surface of section | ||
+ | |||
+ | 3. Pick up CapSure cap in swing arm, and swing over to place cap on top of slide (by grabbing the "beer can") | ||
+ | |||
+ | 4. Turn laser "interlock" key clockwise from noon to 3 o'clock: this unlocks the laser | ||
+ | |||
+ | 5. Press "Laser Enable" to get targeting laser. If you decrease microscope lamp illumination, you should see the red dot of the targeting laser. (It will be more less diffuse until the laser is focused). | ||
+ | |||
+ | 6. Adjust size and focus of the laser spot with the controls on the left side of the laser mounted on the Microscope | ||
+ | |||
+ | 7. Adjust the duration and power parameter of the laser pulse on the Controller. | ||
+ | |||
+ | * use the upper up-and-down arrows to select pulse parameter | ||
+ | * use the lower up-and-down arrows to set the parameter value | ||
+ | * Spotsize is set with the controls on the laser in previous step | ||
+ | * Temperature is read-only | ||
+ | |||
+ | |||
+ | 8. Use microscope joystick to maneuver red dot over target region on the slide | ||
+ | |||
+ | 9. Press the laser button to fire the laser. Can fire repeatedly to ensure collection. | ||
+ | |||
+ | 10. Use microscope joystick to maneuver to an adjacent (or distant) spot to collect more samples. | ||
+ | |||
+ | 11. Move cap over to "cap holder" on right of microscope. | ||
+ | |||
+ | [[Category:Protocols]] |
Latest revision as of 08:02, 11 October 2022
Overview
Example Powerpoint with videos and calibration images.
Supplies for LCM
CapSure Caps
- LCM0213 caps and alignment tray and incubation block (dont know if we need all that)
- LCM0214 32 caps $560
- LCM0215 160 caps $2400
Cryo-Jane System for Adhesive Slides
Instrumedics Inc.
5918 Evergreen Blvd.
St. Louis, Mo 63134
Phone: 314-522-8671
Fax: 314-522-6360
email: sales@instrumedics.com
Now part of Leica Biosystems
(prices updated 2022)
Adhesive-Coated Slides CFSA 1X Slides White (125/box) item # 39475208 $375
Adhesive Tape Windows 1x3 Slides (RL200per) item #39475214 $114
see also Electron Microscopy Sciences page
video: Univ Vermont
Protocol for Amygdala Regions
Reference Kwon et al, 2008, PMID 18374904
The frozen brains were sectioned between -2.30 and -3.14 mm from bregma (Paxinos and Watson, 1986) at 5 µm thickness and mounted on slides in a –20 ºC cryostat using the CryoJane system (Instrumedics, Hackensack, NJ). The frozen brain sections were defrosted at room temperature for 30 sec, then stained and dehydrated by the following procedure: 75% ethanol for 30 sec, DEPC-treated deionized H2O (DEPC-dH2O) for 30 sec, Histogene Staining solution (Arcturus, Mountain View, CA) for 3 min, DEPC-dH2O for 30 sec, 75% ethanol for 30 sec, 95% ethanol for 30 sec, 100% ethanol for 30 sec, xylene for 5 min, air dried in a fume hood for 15 min, and then desiccated with Drierite (W.A. Hammond Drierite, Xenia, OH) for 1 h. LCM parameters were 15 or 30 µm diameter laser spot, a 10 ms laser pulse duration, and a 65 mW laser power. Multiple laser shots (150-200) were required to transfer each amygdala region. Following dissection, tissue sections were stained with methyl green (Vector Laboratories, Burlingame, CA) and coverslipped to verify the specificity of the dissection.
Total RNA was extracted from individual LCM samples with the Total RNA Microprep Kit (Stratagene, La Jolla, CA) according to the manufacturer’s protocols. RT-PCR was performed by using the OneStep RT-PCR Kit (Qiagen, Valencia, CA).
Protocol for X-Gal Stained Cells
Reference Kwon and Houpt 2010 PMID 19925827
In order to confirm mRNA expression and preservation in β-Gal-positive cells, we performed RT-PCR after LCM of single cells. Transgenic mice were injected with LiCl (0.15 M, 40 ml/kg, i.p.). One hour later, they were anesthetized with sodium pentobarbitol, decapitated, and the brains were dissected. The brains were emmersed in M-1 Embedding Matrix (Shandon, Pittsburgh, PA), immediately frozen with dry ice, and stored at –80 ºC freezer until used. The frozen brains were sectioned at 8 µm and mounted on slides in a –20ºC cryostat using the CryoJane tape transfer system (Instrumedics, Hackensack, NJ). The sections were defrosted at room temperature for 30 s and then briefly washed with DEPC-dH2O. The brain sections were fixed in 70% ethanol at room temperature for 5 min and then washed with DEPC-dH2O for 5 min. Brain sections were then stained as above in X-Gal reaction buffer containing 1 mg/ml of X-Gal in DEPC-dH2O. The reaction was performed for 16 h at 37ºC in darkness.
Subsequent to X-Gal staining, the sections were washed in DEPC-dH2O for 5 min and dehydrated by the following procedure: 70% ethanol for 30 s, 95% ethanol for 30 s, 100% ethanol for 30 s, xylene for 5 min, air dried in a fume hood for 15 min, and then desiccated with Drierite (W.A. Hammond Drierite, Xenia, OH) for 1 h. X-Gal stained cells in the CeA, cortex and hippocampus were microdissected using the PixCell II LCM system (Arcturus, Mountain view, CA). A 7 um diameter laser spot, a 10 ms laser pulse duration, and a 85 mW laser power were used for the microdissection. Cells from cortex and hippocampus were included as positive controls, because those areas have previously been reported to have high levels of c-Fos and lacZ expression (Smeyne et al., 1992b and 1993). Total RNA was extracted from the LCM samples with the Total RNA Microprep Kit (Stratagene, La Jolla, CA) according to the manufacturer’s protocols. RT-PCR using primer pairs for c-Fos and β-actin was performed by using the OneStep RT-PCR Kit (Qiagen, Valencia, CA) as described above. The total RNA extract from each LCM sample of single cells was used in each RT-PCR reaction (15-20 single cells for β-actin and 30-40 single cells for c-Fos).
Houpt Lab LCM Operating Procedure
Startup
1. Turn on power for Samsung monitor, VGA up-converter,and MTI camera
2. Turn on power for PixCell II Microscope
3. turn on power for Controller (very stiff switch!)
Dissection
1. Place slide on stage, covering up the "I" shaped vacuum port
2. Engage vacuum on Controller, to secure slide to stage
3. Use "Prep strip" on slide to clean up surface of section
3. Pick up CapSure cap in swing arm, and swing over to place cap on top of slide (by grabbing the "beer can")
4. Turn laser "interlock" key clockwise from noon to 3 o'clock: this unlocks the laser
5. Press "Laser Enable" to get targeting laser. If you decrease microscope lamp illumination, you should see the red dot of the targeting laser. (It will be more less diffuse until the laser is focused).
6. Adjust size and focus of the laser spot with the controls on the left side of the laser mounted on the Microscope
7. Adjust the duration and power parameter of the laser pulse on the Controller.
- use the upper up-and-down arrows to select pulse parameter
- use the lower up-and-down arrows to set the parameter value
- Spotsize is set with the controls on the laser in previous step
- Temperature is read-only
8. Use microscope joystick to maneuver red dot over target region on the slide
9. Press the laser button to fire the laser. Can fire repeatedly to ensure collection.
10. Use microscope joystick to maneuver to an adjacent (or distant) spot to collect more samples.
11. Move cap over to "cap holder" on right of microscope.