In the 1960s the drug cis-platin was discovered, which has been extremely effective in treating a number of different types cancer such as testicular, ovarian, cervical, breast, lung and brain cancer
Cancer cells grow and replicate much faster than normal cells
Cis-platin is a square planar molecule that has a geometric isomer with the side groups in different positions
The structures of cis-platin and trans-platin
The cis-platin works by binding to the nitrogen atoms on the bases in DNA
The cis-platin passes through the cell membrane and undergoes ligand exchange where the chlorines are replaced by water molecules
The nitrogen is a better ligand than water and forms dative covalent bonds with the cis-platin
The cis-platin distorts the shape of the DNA and prevents the DNA from replicating
The process by which cis-platin binds to DNA and prevents replication
Adverse Effects
Cis-platin binds to healthy cells as well as cancerous cells, but affects cancer cells more as they are replicating faster
Unfortunately, this means that other healthy cells which replicate quickly, such as hair follicles, are also affected by cis-platin
This is why hair loss is a side-effect of people undergoing cancer treatment
Despite this drawback, cisplatin is a highly effective drug and society needs to find a balance between the adverse effects of drugs and their therapeutic value
New therapeutic pathways are constantly under development that aim to deliver drugs that target cancer cells while leaving healthy cells untouched