Normally harmless cell molecule triggers neuron death

Normally harmless cell molecule triggers neuron death
Visual representation of project. Credit: Wanli Liu

A vital intermediate in normal cell metabolism is also, in the right context, a trigger for cell death, according to a new study from Wanli Liu and Yonghui Zhang of Tsinghua University, and Yong Zhang of Peking University in Beijing, publishing 26th April 2021 in the open access journal PLOS Biology. The discovery may contribute to a better understanding of the damage caused by stroke, and may offer a new drug target to reduce that damage.

Farnesyl pyrophosphate (FPP) is an intermediate in the , a series of biochemical reactions in every cell that contributes to , , and construction of cell membranes. During a search for regulators of immune cell function, the authors unexpectedly discovered that FPP, when present at high concentrations outside of cells, caused rapid and extensive death of . FPP carries both a highly charged phosphate head and a long hydrophobic hydrocarbon tail, and by altering each in turn, the researchers showed that both were necessary for the effect, suggesting that FPP might interact specifically with some complementary receptors.

Depletion of extracellular calcium prevented the lethal effect of FPP, providing a further clue as to the mechanism. By knocking out a variety of cation channels, the team found that one, called TRPM2, contributed at a certain level to FPP-induced , and that an inhibitor blocking FPP induced TRPM2 open can inhibit FPP induced cell death.

FPP is normally present in the microenvironment at too low a concentration to trigger cell death, but that may change during an , as mevalonate pathway are known to be highly active in neurons and neurons could rapidly release their cellular contents in stress induced necrosis, leading to elevated levels of many otherwise-rare biomolecules in the microenvironment. The authors showed that in a mouse model of ischemic injury, the concentration of FPP rose, and that pre-administration of the calcium channel blocker could reduce the extent of injury. Moreover, inhibitors that prevent the metabolic production of FPP also reduced the extent of injury.

These results suggest that blockade of FPP’s action could be a new avenue for reducing the damage from stroke, either by inhibiting TRPM2 to reduce calcium influx or targeting its metabolic synthesizing pathway. Much will need to be learned about this new cell pathway first, including the duration of the window during which such interventions might be amenable to therapy.

Nonetheless, Liu and colleagues said, “These findings point to novel, potentially druggable targets to treat ischemic injury. In view of the complex nature of human ischemic injury, targeting this pathway might best be combined with current therapies to improve the therapeutic effects.”

Discovery offers potential for stripping tumors of T cell protection

More information:
Chen J, Zhang X, Li L, Ma X, Yang C, Liu Z, et al. (2021) Farnesyl pyrophosphate is a new danger signal inducing acute cell death. PLoS Biol 19(4): e3001134.

Normally harmless cell molecule triggers neuron death (2021, April 26)
retrieved 27 April 2021

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