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Cisplatin
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Cisplatin is a chemical compound with cis-. It is a coordination complex of that is used as a chemotherapy medication used to treat a number of . These include testicular cancer, , , , head and neck cancer, esophageal cancer, , , and . It is given by .

Common side effects include bone marrow suppression, including severe hearing loss, , and . Other serious side effects include numbness, trouble walking, allergic reactions, electrolyte problems, and . Use during pregnancy can cause harm to the developing fetus. Cisplatin is in the platinum-based antineoplastic family of medications. It works in part by binding to DNA and inhibiting .

Cisplatin was first reported in 1845 and licensed for medical use in 1978 and 1979.

(2025). 9783527607495, John Wiley & Sons. .
It is on the World Health Organization's List of Essential Medicines.

Medical use
Cisplatin is administered as short-term infusion in normal saline for treatment of solid and haematological malignancies. It is used to treat various types of cancers, including , some (e.g., , squamous cell carcinoma of the head and neck and ), , , , and germ cell tumors.

The introduction of cisplatin as a standard treatment for testicular cancer improved remission rates from 5–10% before 1974 to 75–85% by 1984.

Side effects
Cisplatin has a number of side effects that can limit its use:
  • (kidney damage) is the primary dose-limiting side effect and is of major clinical concern. Cisplatin selectively accumulates into the via basolateral-to-apical transport, where it disrupts mitochondrial energetics and endoplasmic reticulum Ca2+ homeostasis and stimulates reactive oxygen species and pro-inflammatory . Multiple mitigation strategies are being explored clinically and pre-clinically, including hydration regimens, , transporter inhibitors, antioxidants, anti-inflammatories, and epoxyeicosatrienoic acids and their analogues.
  • (nerve damage) can be anticipated by performing nerve conduction studies before and after treatment. Common neurological side effects of cisplatin include visual perception and hearing disorder, which can occur soon after treatment begins. While triggering apoptosis through interfering with DNA replication remains the primary mechanism of cisplatin, this has not been found to contribute to neurological side effects. Cisplatin noncompetitively inhibits an archetypal, membrane-bound mechanosensitive sodium-hydrogen ion transporter known as NHE-1. It is primarily found on cells of the peripheral nervous system, which are aggregated in large numbers near the ocular and aural stimuli-receiving centers. This noncompetitive interaction has been linked to hydroelectrolytic imbalances and cytoskeleton alterations, both of which have been confirmed in vitro and in vivo. However, NHE-1 inhibition has been found to be both dose-dependent (half-inhibition = 30 μg/mL) and reversible. Cisplatin can increase levels of sphingosine-1-phosphate in the central nervous system, contributing to the development of post-chemotherapy cognitive impairment.
  • and : cisplatin is one of the most emetogenic chemotherapy agents, but this symptom is managed with prophylactic antiemetics (, , etc.) in combination with . combined with and has been shown to be better for highly emetogenic chemotherapy than just and .
  • and hearing loss associated with cisplatin can be severe and is considered to be a dose-limiting side effect. Audiometric analysis may be necessary to assess the severity of ototoxicity. Other drugs (such as the 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 in the of the inner ear or the generation of reactive oxygen species. In September 2022, the U.S. Food and Drug Administration (FDA) approved sodium thiosulfate under the brand name Pedmark to lessen the risk of ototoxicity and hearing loss in people receiving cisplatin. There is ongoing investigation of injections as a preventative measure.
  • 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 is not primarily due to the cisplatin.
  • can be developed after several courses of cisplatin. It is suggested that an antibody reacting with a cisplatin-red-cell membrane is responsible for .

Pharmacology
Cisplatin interferes with DNA replication, which kills the fastest proliferating cells, which in theory are cancerous. Following administration, one chloride ion is slowly displaced by water to give the cis-PtCl(NH3)2(H2O)+, in a process termed . Dissociation of the chloride is favored inside the cell because the intracellular chloride concentration is only 3–20% of the approximately 100 mM chloride concentration in the extracellular fluid.

The water molecule in cis-PtCl(NH3)2(H2O)+ is itself easily displaced by the N-heterocyclic bases on . preferentially binds. A model compound has been prepared and crystals were examined by crystallography

Subsequent to formation of PtCl(guanine-DNA)(NH3)2+, crosslinking can occur via displacement of the other chloride, typically by another guanine. Cisplatin crosslinks DNA in several ways, interfering with cell division by . The damaged DNA elicits mechanisms, which in turn activate when repair proves impossible. In 2008, apoptosis induced by cisplatin on human colon cancer cells was shown to depend on the mitochondrial serine-protease Omi/Htra2. Since this was only demonstrated for colon carcinoma cells, it remains an open question whether the Omi/Htra2 protein participates in the cisplatin-induced apoptosis in carcinomas from other tissues.

Most notable among the changes in DNA are the 1,2-intrastrand cross-links with bases. These include 1,2-intrastrand d() adducts, which form nearly 90% of the adducts, and the less common 1,2-intrastrand d() adducts. Coordination chemists have obtained crystals of the products of reacting cisplain with small models of DNA. Here is a plot of the platinum binding to a small model of DNA.

1,3-intrastrand d(GpXpG) adducts occur but are readily excised by the excision repair (NER). Other adducts include inter-strand crosslinks and nonfunctional adducts that have been postulated to contribute to cisplatin's activity. Interaction with cellular proteins, particularly HMG domain proteins, has also been advanced as a mechanism of interfering with mitosis, although this is probably not its primary method of action.

Cisplatin resistance
Cisplatin combination chemotherapy is the cornerstone of treatment of many cancers. Initial platinum responsiveness is high, but the majority of cancer patients will eventually relapse with cisplatin-resistant disease. Many mechanisms of cisplatin resistance have been proposed, including changes in cellular uptake and efflux of the drug, increased detoxification of the drug, inhibition of , increased or changes in metabolism. is active in highly cisplatin-resistant cancer cells in the laboratory; however, there is little evidence for its activity in the clinical treatment of patients with cisplatin-resistant cancer. The drug may be useful in the treatment of cisplatin-resistant cancer; the mechanism for this activity is as yet unknown.

Transplatin
Transplatin, the trans-stereoisomer of cisplatin, has formula trans-PtCl2(NH3)2 and does not exhibit a comparably useful pharmacological effect. Two mechanisms have been suggested to explain the reduced anticancer effect of transplatin. Firstly, the trans arrangement of the chloro ligands is thought to confer transplatin with greater chemical reactivity, causing transplatin to become deactivated before it reaches the DNA, where cisplatin exerts its pharmacological action. Secondly, the stereo-conformation of transplatin is such that it is unable to form the characteristic 1,2-intrastrand d(GpG) adducts formed by cisplatin in abundance.

Molecular structure
Cisplatin is the square planar coordination complex cis-Pt(NH3)2Cl2.
(1999). 9780138418915, Prentice Hall.
The prefix cis indicates the cis isomer in which two similar ligands are in adjacent positions.
(2025). 9780130399137, Pearson Prentice Hall.
The systematic chemical name of this molecule is cis–diamminedichloroplatinum, where ammine with two m's indicates an (NH3) , as opposed to an organic with one m.

History
The compound cis-Pt(NH3)2Cl2 was first described by Italian chemist in 1845, and known for a long time as Peyrone's salt. The structure was deduced by in 1893. In 1965, Barnett Rosenberg, Van Camp et al. of Michigan State University discovered that of platinum electrodes generated a soluble platinum complex which inhibited binary fission in ( E. coli) bacteria. Although bacterial cell growth continued, cell division was arrested, the bacteria growing as filaments up to 300 times their normal length. The octahedral Pt(IV) complex cis-PtCl4(NH3)2, but not the trans isomer, was found to be effective at forcing filamentous growth of E. coli cells. The square planar Pt(II) complex, cis-PtCl2(NH3)2 turned out to be even more effective at forcing filamentous growth.
(2025). 9780854841127
This finding led to the observation that cis-PtCl2(NH3)2 was indeed highly effective at regressing the mass of in . Confirmation of this discovery, and extension of testing to other tumour cell lines launched the medicinal applications of cisplatin. Cisplatin was approved for use in testicular and ovarian cancers by the U.S. Food and Drug Administration on 19 December 1978.
(2025). 9780691141800, Princeton University Press.
and in the UK (and in several other European countries) in 1979. Cisplatin was the first to be developed. In 1983 pediatric oncologist Roger Packer began incorporating cisplatin into adjuvant chemotherapy for the treatment of childhood . The new protocol that he developed led to a marked increase in disease-free survival rates for patients with medulloblastoma, up to around 85%. The Packer Protocol has since become a standard treatment for medulloblastoma. Likewise, cisplatin has been found to be particularly effective against testicular cancer, where its use improved the cure rate from 10% to 85%.

Synthesis
Syntheses of cisplatin start from potassium tetrachloroplatinate. Several procedures are available. One obstacle is the facile formation of Magnus's green salt (MGS), which has the same empirical formula as cisplatin. The traditional way to avoid MGS involves the conversion of K2PtCl4 to K2PtI4, as originally described by Dhara. Reaction with forms PtI2(NH3)2 which is isolated as a yellow compound. When in water is added insoluble precipitates and Pt(OH2)2(NH3)2(NO3)2 remains in solution. Addition of potassium chloride will form the final product which precipitates In the triiodo intermediate the addition of the second ammonia ligand is governed by the .

A one-pot synthesis of cisplatin from K2PtCl4 has been developed. It relies on the slow release of ammonia from ammonium acetate.

(2025). 9780470132630

Research
Cisplatin has been studied with to increase the therapeutic effects of cisplatin, without increasing normal tissue toxicities. However, due to significant side effects, the search for structurally novel Pt(II) and Pd(II) compounds exhibiting antineoplastic activity is extremely important and aims to develop more effective and less toxic drugs. Cisplatin-like molecules (PtCl(NH3)2 and Pt(NH3)Cl2) linked by variable length alkandiamine chains have attracted some interest in cancer chemotherapy.

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