20.109(F13): Mod 2 Day 6 Transfection of SH2 Domains

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20.109(F13): Laboratory Fundamentals of Biological Engineering

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Introduction

Laser light path for Odyssey Licor Scanner. Image from Odyssey handbook.




Since you were last in lab, the teaching staff blocked your nitrocellulose membranes with Odyssey Blocking Buffer (OBB) -- a non-mammalian serum based buffer that is proprietary to Licor, Inc -- and then incubated the membrane with primary antibody at 4C on a shaker for approximately 16 hours.

Recall that the membranes were cut into various pieces so that we can evaluate a few components of the EGFR signaling pathway. As a reminder, shown below is a diagram of how the membrane was cut.

The diagram roughly shows the molecular weights of our proteins of interest and where they will be located on the membrane when we scan them today. Use the chart below to locate more information about the particular antibodies that were used in the study. An 'X' indicates that a particular antibody was utilized. So, the number and type of antibodies that were used on your membrane reflect which inhibitor you are testing on M2D7.

Did your team choose to inhibit?
Antibody Species Approx. MW Akt pathway? Erk pathway? STAT3 pathway?
EGFR Goat 150 kDa X X X
tyrosine 1068 pY1068-EGFR Rabbit 150 kDa X X X
GAPDH Rabbit 37 kDa X X
pS473-Akt Rabbit 64 kDa X
total Akt Mouse 64 kDa X
pT202/pY204-Erk Rabbit 42/44 kDa X
total Erk Mouse 42/44 kDa X
pY705-STAT3 Rabbit 75 kDa X
total STAT3 Mouse 75 kDa X

Today we will use infrared (IR) secondary antibodies and scan the Western blots using a specially constructed microscope located in the Lauffenburger lab to determine the phosphorylation of the EGFR netowrk in response to 50 ng/mL (8.4 nM) EGF + increasing amounts of Erlotinib (the conditions that you stimulated your cells with last time).

Part 2.1: Day Two of Western Blot Analysis -- Secondary Antibody

Now we will wash off the primary antibody and then continue with the blot analysis:

  1. Using a 500 mL glass bottle and the 10x TBS stock on the front bench, make a 500 mL 1x TBS stock using DI water from the lab sink.
  2. Now add enough Tween 20 to make a 0.1% solution (TBS-T). Tween-20 is located on the front bench. Shake the bottle well to mix.
  3. Obtain your blots from the front bench. Pour off the antibody solutions into the sink and add enough TBS-T to cover your membranes -- between 10-15 mL should work, but you don't need to measure this out. Keep in mind that the washing steps work by dilution, so it is a balance between adding enough to create a sink for the primary antibody, but not so much that you make a huge mess on the shaker!
  4. Shake your container for 10 min.
  5. Repeat for a total of 3 washes. Note: the time and number of washes was determined previously and can depend on your primary antibody!
  6. During your washes, dilute the secondary antibodies in 10 mL of OBB. They are light sensitive so find them on the front bench and then wrap your 15 mL conical in aluminum foil.
    • For GAPDH (Rabbit) -- use the anti-Rabbit IR800 antibody at 1:15,000
    • For EGFR (Goat) / p-EGFR (Rabbit) -- use the anti-Goat IR680 at 1:10,000 and anti-Rabbit IR800 at 1:10,000
    • Why can we mix these antibodies?
  7. After the last wash, add your secondary antibody and place it on the dark shaker for 45 min.
  8. Pour off the secondary antibody and wash the membranes 3x, 7 min in TBS-T
  9. After the last wash, rinse the membranes 1x with 25 mL PBS. Pour off the PBS and keep in another 25mL of PBS until you can scan the membrane.

Part 2.2: Imaging the Western Blot

Sample placement for Western blot on Odyssey scanner. Image from Odyssey handbook

The Licor Odyssey scanner is a solid-state laser scanning microscope that concurrently images two wavelengths (700 and 800 nm), allowing for simultaneous detection of two (or more -- how?) antibodies.

The Odyssey scanner is located in the Lauffenburger lab in room 56-378. In groups of two you will go with a member of the teaching staff to scan your blots. The scanner has a variety of settings that control the resolution of the final image and the amount of light that is collected by the microscope objective. You will learn about those settings at the microscope. Be sure to note them in your lab notebook so that you may include them in your Methods section.

Scanning your Western blot is only the first step! You just did a lot of work to obtain what appears to be observational data. However, we can use densitometry to quantify the change in EGFR phosphorylation. Therefore, once you obtain your Western blot images -- which will be .tif files -- use ImageJ (a freeware for biological imaging from the NIH) to perform a densitometric analysis on your bands. A tutorial from NAVBO is attached here for instructions on performing densitometry. You will use this analysis in the FNT assignment for next time and it will help you to limber up your mind for the BRET analysis on M2D7.

For Next Time

1. Perform a densiometric analysis using your Western blot data and determine the EC50 for your growth factor in regards to EGFR phosphorylation. Remember to control for potential loading differences between wells in your gel and any variation in total EGFR expression. Hint: See your lecture notes and remember to scale your data from 0 to 1.

Notes for Teaching Faculty

TA notes, mod 2

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