From New Scientist:
HAD Amin Rustom not messed up, he would not have stumbled upon one of the biggest discoveries in biology of recent times. It all began in 2000, when he saw something strange under his microscope. A very long, thin tube had formed between two of the rat cells that he was studying. It looked like nothing he had ever seen before…
…At the time, it was not clear whether these structures were anything more than a curiosity seen only in peculiar circumstances. Since their pioneering paper appeared, however, other groups have started finding nanotubes in all sorts of places, from nerve cells to heart cells. And far from being a mere curiosity, they seem to play a major role in anything from how our immune system responds to attacks to how damaged muscle is repaired after a heart attack.
Essentially, these nanotubes allows animal cell interiors at some distance to “communicate” so that they act can in concert. This had previously been thought nearly impossible as cell communication seemed to occur almost entirely by releasing chemicals that can be detected by receptors on the surface of other cells.
There are potentially enormous implications for this discovery, not least in immunology. For instance, there is speculation that HIV may avoid an immunological response by traveling through nanotubes. Another fascinating aspect is this:
Using fluorescent proteins, the team also discovered that relatively large cellular structures, or organelles, could move from one cell to another through the nanotubes.
You have to understand the basic structure of a cell to grasp what this means. The human cell is a like micro-machine that generates it’s own energy and functions like a little organism, producing proteins to perform all sorts of activities including making new cells. To be able to pass an organelle from one cell to another is something like (but not quite) one human being being able to pass a kidney to another human being without the fuss of surgery.
Cell biology and immunology are among the most fascinating areas in science. I am not practiced enough to write about these topics at length, but if you want to understand how beautifully strange and complex life is, cell biology and immunology is a great place to start.