Vala Sciences

pPerilipin-serine497 + pHSLser660 + Lipid droplets (Vala #4822)

$995.00
Availability: In Stock Product size: 500 tests using 96 well plates

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Overview

The reagents in this kit will specifically visualize triglyceride containing lipid droplets, Perilipin A (the most common form of Perilipin in adipocytes), which has been phosphorylated on serine 497 (human sequence, equivalent to mouse serine 492, also known as PKA phosphorylation site #5), and Hormone Sensitive Lipase (HSL), which has been phosphorylated on serine 660 (referenced to the sequence of rat HSL).  Phosphorylation of perilipin on serine 497 and HSL on serine 660 occurs early in the activation scheme of lipolysis in adipocytes.  The reagents in this kit therefore provide tools for visualizing the appearance of two key regulators of lipid droplet metabolism (pPerilipin-serine497 and pHSL-serine660), as well as the lipid droplets, themselves. Reagents in this kit have been validated with both human and murine adipocytes. 

 

 

 

Item number: 4822

Kit Usage & Contents

Kit Components:

Reagent A (PF02):  Fixative (60 ml).

   (CAUTION: CONTAINS 4% PARAFORMALDEHYDE - OPEN AND USE IN A WELL VELTILATED SPACE.  AVOID CONTACT AND DISPOSE OF PROPERLY)

Reagent B (PB01): (60 ml)

Reagent C (BB01):  (75 ml).

Reagent D (S703): (18 ml Reagent C; 90 ml of 200X pPerilipin-serine497 stock; 90 ml of 200X pHSL-serine660 stock) – Only prepare enough reagent D for the experiment, as it is best to store it in its undiluted form at 4 C.  Prepare dilution of Reagent D by adding 5 ml of 200X pPeri-serine497 stock plus 5 ml of 200X pHSL-serine660 stock per ml of Reagent C, just prior to use.  Enough reagent is supplied to use 30 ml per well for five 96-well dishes. 

Reagent E (F202, F501): (18 ml Reagent C; 72 ml of 250X stock of red channel label (F202); 72 ul of 250 X stock of far-red channel label (F501)) - Only prepare enough reagent E for the experiment, as it is best to store it in its undiluted form at 4 C.  Prepare dilution of Reagent E by adding 4 ml of F202 250X stock plus 4 ml of F501 250X stock per ml of Reagent C, just prior to use. Enough reagent is supplied to use 30 ml per well for five 96-well dishes.

Reagent F (DA01):  60 ml DA01 plus 60 ml Vala Sciences Lipid stain. - Add 1 ml of Vala’s Lipid Stain (1000X stock) per ml of Reagent F (CAUTION: CONTAINS DAPI – AVOID CONTACT AND DISPOSE OF PROPERLY)

Reagents that are required but are not supplied with the kit include:

Cells (e.g., 3T3L1 cells)

Phosphate buffered saline (PBS):  (e.g., MediaTech Cat. No. 21-040-CM, PBS, 1X).

Protocol: The key steps are preparing the cells for the experiment, performing the experiment, processing the samples, imaging the cells, analyzing the data. 

1.  Preparing the cells for the experiment:  Use 96-well dishes featuring optical quality coverslip glass (e.g., Nunc #164588) for best results.  Prior to plating, pre-coat dishes with a protein substrate (e.g., Matrigel, BD Biosciences, diluted 1/50 using “thin-coat method” as specified by manufacturer).   For 3T3L1 cells, it is convenient to grow the cells to confluency in tissue flasks, add differentiation medium for 3 to 4 days to initiate the adipogenesis process, then transfer the cells to 96-well dishes at a high degree of confluency (e.g., 60,000 cells/well).  Cells cultured in this manner will immediately begin expressing lipid droplets and HSL, and can be successfully labeled for HSL within 3 days of transfer to the dish; alternatively the cells can be maintained for up to 3 weeks in culture to attain full maturation to the adipocytes phenotype.

2.  Prepare the reagents:  Cool PBS (at least 21 ml per plate) to 4 C.  Prepare test compounds (these can be prepared as either concentrated stock solutions, e.g., 10X, or at the desired final concentration (1X, which will require a full replacement of the well contents with the solution containing the test compound).  Prepare a station for fixing the cells in a well ventilated place (e.g., take the bottle of Reagent A to the fume hood, setup reagent reservoirs for PBS and for Reagent A).

3.  Perform the experiment:

A) Add test compounds:  If drug solutions are at 1X, dump or aspirate each plate and replace well contents with test conditions.  If concentrated drug stock solutions are being used, add these to the cells at this time.

B)  Incubate cells for the desired period of time:  Final preparations for “stopping” the cells can be made at this time (e.g., pipetting PBS and Reagent A into separate reagent reservoirs).

Text Box: Technical tip! If desired, cells can be stored at 4 C in Reagent C for up to 3 days prior to further processing.C) “Stop” the cells:  Remove test solutions, rinse wells with 200 ml/well of cold PBS, add 100 ml of Reagent A per well.  Incubate the cells with Reagent A (100 ml/well) for 15 minutes at room temperature to “fix” the cells.  Rinse wells 2X with 200 ml of PBS to remove fixative.

4.  Stain the cells:

- Add 100 ml/well Reagent B.  Incubate at 37 C for 15 min. with rotation.  Remove Reagent B.

- Add 100 ml/well Reagent C.  Incubate at 37 C for 60 min. with rotation.  Remove Reagent C (remove as much as possible from each well, using a multi-channel pipet or aspirator, being careful not to disturb the cell monolayer - this is particularly important for mature 3T3L1 adipocytes, which tend to be relatively non-adherent).

- Add 30 ml/well Reagent D.  Incubate at 37 C for 60 min. with rotation.  Remove Reagent D.

- Incubate wells with 200 ml/well PBS at 37 C for 5 min. with rotation.  Remove PBS.  Repeat for a total of 3 rinses.

        - Add 30 ml/well of Reagent E.  Incubate at 37 C for 60 min. with rotation.  Remove Reagent E.

- Incubate wells with 200 ml/well PBS at 37 C for 5 min. with rotation.  Remove PBS.  Repeat for a total of 3 rinses. 

- Add 100 ml/well of Reagent F.  Incubate 20 minutes at room temperature.  The cells are now ready for imaging.

 

5.  Imaging the cells:  Refer to the manual of your microscopy work station for image acquisition.  Avoid overexposing the images.  We typically image 3T3L1 cells using either a 20X or 40 X objective.  Nuclei will be visualized on the “blue” channel (excitation filter centered at 360 nm, emitting at 460 nm).  Lipid droplets will be visualized in the “green” fluorescence channel (excitation filter centered at 490 nm, emitting at 525 nm).  pPerilipin-serine497 will be visualized in the “red” fluorescence channel (excitation = 555 ± 12.5 nm, emission = 615 ± 26 nm), and pHSL-serine660 will be visualized in the “far-red” fluorescence channel (excitation = 645 ± 15 nm, emission = 715 ± 36 nm).

 

 

Ordering

In addition to ordering online you can also call us on 1-888-742-8252 (VALA) or fax an order form to 1-888-742-1230. If you have any questions about this item you can also contact us through the website. Items that are in stock will be delivered in 1-2 days.

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