Cisplatin Totally Explained

Everything about Cisplatin totally explained

Cisplatin, cisplatinum or cis-diamminedichloridoplatinum(II) (CDDP) is a platinum-based chemotherapy drug used to treat various types of cancers, including sarcomas, some carcinomas (for example small cell lung cancer, and ovarian cancer), lymphomas and germ cell tumors. It was the first member of its class, which now also includes carboplatin and oxaliplatin. Platinum complexes are formed in cells, which bind and cause cross-linking of DNA -- ultimately triggering apoptosis, or automated cell death.

Pharmacology

Following administration, one of the chloride ligands is slowly displaced by water (an aqua ligand), in a process termed aquation. The aqua ligand in the resulting [PtCl(H₂O)(NH₃)₂]⁺ is itself easily displaced, allowing cisplatin to coordinate to a basic site in DNA. Subsequently, the platinum cross-links two bases via displacement of the other chloride ligand.. Oxaliplatin is active in highly cisplatin-resistant cancer cells in the laboratory, however there's little evidence for its activity in the clinical treatment of patients with cisplatin resistant cancer. The drug Paclitaxel may be useful in the treatment of cisplatin resistant cancer, the mechanism for this activity is unknown.

Transplatin

Transplatin, the trans stereoisomer of cisplatin, has formula trans-[PtCl₂(NH₃)₂] and doesn't exhibit a comparably useful pharmacological effect. Its low activity is generally thought to be due to rapid deactivation of the drug before it can arrive at the DNA. It is toxic, and it's desirable to test batches of cis-platin for the absence of the trans isomer. In a procedure by Woollins et al., which is based on the classic 'Kurnakov test', thiourea reacts with the sample to give derivatives are easily separated and detected by HPLC.

Side effects

Cisplatin has a number of side-effects that can limit its use:

Nephrotoxicity (kidney damage) is a major concern when cisplatin is given. The dose is reduced when the patient's creatinine clearance (a measure of renal function) is reduced. Adequate hydration and diuresis is used to prevent renal damage. The nephrotoxicity of platinum-class drugs seems to be related to reactive oxygen species and in animal models can be ameliorated by free radical scavenging agents. This is a dose-limiting toxicity.
Neurotoxicity (nerve damage) can be anticipated by performing nerve conduction studies before and after treatment.
Nausea and vomiting. Cisplatin is one of the most emetogenic chemotherapy agents, but this is managed with prophylactic antiemetics (for example ondansetron, granisetron, etc.) in combination with corticosteroids. Aprepitant combined with ondansetron and dexamethasone has been shown to be better for highly emetogenic chemotherapy than just ondansetron and dexamethasone.
Ototoxicity (hearing loss): unfortunately there's at present no effective treatment to prevent this side effect, which may be severe. Audiometric analysis may be necessary to assess the severity of ototoxicity. Other drugs (such as the aminoglycoside antibiotic class) may also cause ototoxicity, and the administration of this class of antibiotics in patients receiving cisplatin is generally avoided. The ototoxicity of both the aminoglycosides and cisplatin may be related to their ability to bind to melanin in the stria vascularis of the inner ear or the generation of reactive oxygen species.
Alopecia (hair loss): this is generally not a major problem in patients treated with cisplatin.
Electrolyte disturbance: Cisplatin can cause hypomagnesaemia, hypokalaemia and hypocalcaemia. The hypocalcaemia seems to occur in those with low serum magnesium secondary to cisplatin, so it isn't primarily due to the Cisplatin.

History

The compound cis-PtCl₂(NH₃)₂ was first described by M. Peyrone in 1845 (known as Peyrone's salt). The structure was deduced by Alfred Werner in 1893. In the 1960s, Barnett Rosenberg and van Camp et al at Michigan State University discovered that electrolysis of a platinum electrode produced cisplatin, which inhibited binary fission in Escherichia coli (E. coli) bacteria. The bacteria grow to 300 times their normal length but cell division fails. Rosenberg then conducted a series of experiments to test the effects various platinum coordination complexes on sarcomas artificially implanted in rats. This study found that cis-diamminedichloridoplatinum(II) was the most effective out of this group, which started the medicinal career of cisplatin.
Approved for clinical use by the United States Food and Drug Administration (FDA) in 1978, it revolutionized the treatment of certain cancers. Detailed studies on its molecular mechanism of action, using a variety of spectrocopic methods including X-ray, NMR spectroscopy, and other physico-chemical methods, revealed its ability to form irreversible crosslinks with bases in DNA.

Synthesis

The synthesis of cisplatin is a classic in inorganic chemistry. Starting from potassium tetrachloroplatinate(II), K₂PtCl₄, the first NH₃ ligand is added to any of the four equivalent positions, but the second NH₃ could be added cis or trans to the bound amine ligand. Because Cl⁻ has a larger trans effect than NH₃, the second amine preferentially substitutes trans to a chloride ligand, and therefore cis to the original amine. The trans effect of the halides follows the order I^->Br^->Cl^-, therefore the synthesis is conducted using PtI₄²⁻ to ensure high yield and purity of the cis isomer, followed by conversion of the PtI₂(NH₃)₂ into PtCl₂(NH₃)₂, as first described by Dhara.

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