Visualization of the GDP-dependent switching in the growth polarity of microtubules.

Microtubules are filamentous polar polymers with plus and minus ends. This polarity plays a crucial role in a variety of cellular functions such as chromosome movement and organelle transport. To examine the relationship between the growth polarity of microtubules and guanine nucleotide dependence, we polymerized microtubules from axonemes of sea urchin sperm flagella either with GTP or with GTP and GDP, and observed individual microtubules by dark-field microscopy. Tubulin concentrations were adjusted in each case to grow microtubules from only one end of each axoneme. The growth polarity of microtubules was determined using N-ethylmaleimide-modified tubulin (NEM-tubulin). In the presence of GTP only and at low tubulin concentrations, microtubules grew from the plus ends of axonemes. Surprisingly, in the presence of GTP and GDP, microtubules grew from the minus ends, even at high tubulin concentrations. To confirm these results, we used a perfusion chamber to monitor the growth polarity of microtubules from the same axoneme under different conditions. Exchanging a solution containing only GTP for one containing GTP and GDP elicited a switch in the growth polarity of microtubules from the plus ends to the minus ends. These results suggest that GDP directly affects microtubule polymerization and inverts microtubule growth polarity, probably by inhibiting microtubule growth at the plus ends. Copyright 1998 Academic Press.