Cells are enveloped by a lipid membrane that provides them construction and gives a barrier between the cell and its setting. Nevertheless, proof has just lately emerged suggesting that these membranes do greater than merely present safety – additionally they affect the habits of the protein receptors embedded in them.
A brand new research from MIT chemists provides additional assist to that concept. The researchers discovered that altering the composition of the cell membrane can alter the perform of a membrane receptor that promotes proliferation.
Epidermal development issue receptor (EGFR) could be locked into an overactive state when the cell membrane has a better than regular focus of negatively charged lipids, the researchers discovered. This will likely assist to elucidate why most cancers cells with excessive ranges of these lipids enter a extremely proliferative state that permits them to divide uncontrollably.
The longstanding dogma of what a membrane does is that it is only a scaffold, an organizational construction. Nevertheless, there have been rising observations that counsel that possibly these membrane lipids are literally enjoying a job in receptor perform.”Â
Gabriela Schlau-Cohen, the Robert T. Haslam and Bradley Dewey Professor of Chemistry at MIT and the senior writer of the research
The findings open up the potential of discovering new methods to deal with tumors by neutralizing the detrimental cost, which could flip down EGFR signaling, she provides.
Shwetha Srinivasan PhD ’22 is the lead writer of the paper, which seems within the journal eLife. Different authors embody former MIT postdocs Xingcheng Lin and Raju Regmi, Xuyan Chen PhD ’25, and Bin Zhang, an affiliate professor of chemistry at MIT.
Receptor dynamics
The EGF receptor, which is discovered on cells that line physique surfaces and organs, is considered one of many receptors that assist management cell development. Some varieties of most cancers, particularly lung most cancers and glioblastoma, overexpress the EGF receptor, which may result in uncontrolled development.
Like most receptor proteins, EGFR spans the whole cell membrane. Till just lately, it has been difficult to review how indicators are conveyed throughout the whole receptor, due to the problem of making membranes which have proteins going all through them after which finding out each ends of these proteins.
To make it simpler to review these signaling processes, Schlau-Cohen’s lab makes use of nanodiscs, a particular kind of self-assembling membrane that mimics the cell membrane. When making these discs, the researchers can embed receptors in them, permitting the group to review the perform of the full-length receptor.
Utilizing a method referred to as single molecule FRET (fluorescence resonance vitality switch), the researchers can research how the form of the receptor adjustments beneath completely different situations. Single molecule FRET permits them to measure the gap between completely different components of the protein by labeling them with fluorescent tags after which measuring how briskly vitality travels between the tags.
In earlier work, Schlau-Cohen and Zhang used single molecule FRET and molecular dynamics simulations to disclose what occurs when EGFR binds to EGF. They discovered that this binding causes the transmembrane part of the receptor to vary form, and that shape-shift triggers the part of the receptor that extends contained in the cell to activate mobile equipment that stimulates development.
Caught in an overactive state
Within the new research, the researchers used an analogous method to analyze how altering the composition of the membrane impacts the perform of the receptor. First, they explored how elevated ranges of negatively charged lipids would have an effect on the cell membrane and EGFR perform.
Usually, about 15 % of the cell membrane is made up of negatively charged lipids. The researchers discovered that membranes with negatively charged lipids within the vary of 15 to 30 % behaved usually, but when that degree reached 60 %, then the EGFR receptor would develop into locked into an energetic state.
In that state, the pro-growth signaling pathway is turned on on a regular basis, even when no EGF is certain to the receptor. Many most cancers cells present elevated ranges of those lipids, and this mechanism might assist to elucidate why these cells are in a position to develop unchecked, Schlau-Cohen says.
“If the membrane has excessive ranges of negatively charged lipids, then it is at all times in that open conformation. It does not matter if ligand is certain or unbound,” she says. “It is at all times within the conformation that is telling the cell to develop, not simply when EGF binds.”
The researchers additionally used this method to discover the position of ldl cholesterol in EGFR perform. When the researchers created nanodiscs with elevated levels of cholesterol, they discovered that the membranes grew to become extra inflexible, and this rigidity suppressed EGFR signaling.
The analysis was funded by the Nationwide Institutes of Well being and MIT’s Division of Chemistry.
Supply:
Journal reference:
Srinivasan, S., et al. (2026). Energetic regulation of the epidermal development issue receptor by the membrane bilayer. eLife. DOI: 10.7554/eLife.108789.3. https://elifesciences.org/articles/108789