Abstract
Living organisms employ various mechanisms to escape harm. At the cellular level, mobile cells employ movement to avoid harmful chemicals or repellents. The present study is the first to report that cells move away from the site of injury in response to local wounding. When a migrating Dictyostelium cell was locally wounded at its anterior region by laserporation, the cell retracted its anterior pseudopods, extended a new pseudopod at the posterior region, and migrated in the opposite direction with increasing velocity. When wounded in the posterior region, the cell did not change its polarity and moved away from the site of wounding. Since the cells repair wounds within a short period, we successfully manipulated cell migration by applying multiple wounds. Herein, we discussed the signals that contributed to the wound-induced escape behavior of Dictyostelium cells. Our findings provide important insights into the mechanisms by which cells establish their polarity.
Highlights
Living organisms employ various strategies to escape risk of harm
The wound pores in the cell membrane promptly close by employing a wound repair system, which involves the recruitment of several repair proteins, such as annexin and actin[11]
We used our novel laserporation method to create a local wound in the cell membrane of Dictyostelium cells
Summary
Living organisms employ various strategies to escape risk of harm. Animals, including humans and snakes, possess the ability to avoid fires or electric shocks. We used our novel laserporation method to create a local wound in the cell membrane of Dictyostelium cells.
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