How Signal Transduction Affects Diabetes
On October 30, 2009 in Science
Dr. Joseph Schlessinger is one of the first investigators of the sub-field of Signal Transduction, which is integral for cancer research, and numerous other fields as well.
Signal transduction describes processes by which a cell change a type of signal. Most signal transduction processes either involve sequences which are ordered of biochemical reactions within the cell. These are then carried out by enzymes, activated by second messengers. The overall result is a signal transduction pathway. This usually happens extremely quickly, normally in milliseconds (such as the case of ion flux). Conversely this can take minutes for the activation of lipid-mediated and protein kinase cascades. That being said, some such reactions can take several hours, days and even more. This is determined by necessity of the gene expression completion.
The amount of molecules and proteins involved in the events with regards to signal transduction increases as the process emanates from the beginning stimulus, resulting in a “signal cascade,” beginning with generally a small stimulus that elicits a much greater response. This is referred to as amplification of the signal.
In single cell organisms as well as bacteria, the myriad of process of signal transduction of which the cell is capable of influences the number of ways it can respond to its environment. In multicellular organisms, a myriad multitude of various signal transduction processes are necessary for the coordination of the behavior and function of the comprising individual cells. This is both understandable and necessary so the whole organism can properly function. As one may expect, more complex organisms have a vast number of signal transduction processes. Consequently, getting any stimuli from the outside environment at the cellular level relies on signal transduction.
This is why countless illnesses including cancer, diabetes, heart disease and many more are involved with signal transduction and are a result of a flaw of the signal transduction pathways. This work is still far from being finished and more support are needed for the better of us all.