molecular formula C6H10N6O B1669748 Dacarbazine CAS No. 4342-03-4

Dacarbazine

Numéro de catalogue: B1669748
Numéro CAS: 4342-03-4
Poids moléculaire: 182.18 g/mol
Clé InChI: FDKXTQMXEQVLRF-UHFFFAOYSA-N
Attention: Uniquement pour un usage de recherche. Non destiné à un usage humain ou vétérinaire.
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Mécanisme D'action

Target of Action

Dacarbazine is an antineoplastic agent used to treat malignant melanoma and Hodgkin’s disease . The primary targets of this compound are cancer cells, specifically melanoma cells and the cells involved in Hodgkin’s disease .

Mode of Action

It appears to exert cytotoxic effects via its action as an alkylating agent . Other theories include DNA synthesis inhibition by its action as a purine analog, and interaction with SH groups .

Biochemical Pathways

This compound is a synthetic analog of naturally occurring purine precursor 5-amino-1H-imidazole-4-carboxamide (AIC) . It works by sticking to the cancer cell’s DNA and damaging it . DNA makes up genes, which control everything cells do. If the DNA is damaged, the cancer cell cannot divide and make more cancer cells .

Pharmacokinetics

After intravenous administration of this compound, the volume of distribution exceeds total body water content suggesting localization in some body tissue, probably the liver . The bioavailability of this compound is 100% . It undergoes extensive metabolism and has an elimination half-life of 5 hours . Approximately 40% of this compound is excreted in the urine as unchanged drug .

Result of Action

The result of this compound’s action is the slowing or stopping of the growth of cancer cells in the body . By damaging the DNA of cancer cells, this compound prevents these cells from dividing and proliferating, thereby inhibiting the progression of the disease .

Action Environment

The action, efficacy, and stability of this compound can be influenced by various environmental factors during its formulation. For instance, the process parameters such as homogenization speed, duration, and temperature during the preparation of this compound-loaded cubosomes can significantly impact the particle size and encapsulation efficiency . These factors can, in turn, affect the bioavailability and therapeutic efficacy of this compound.

Analyse Biochimique

Biochemical Properties

Dacarbazine is a synthetic analog of the naturally occurring purine precursor 5-amino-1H-imidazole-4-carboxamide (AIC) . It interacts with various enzymes and proteins in the body. The drug undergoes activation via cytochrome P450 in the liver to form the reactive compound, methyltriazenoimidazole carboxamide (MTIC) . The cytotoxicity of MTIC is thought to be due primarily to the formation of methylcarbonium ions that attack nucleophilic groups in DNA .

Cellular Effects

This compound exerts its effects on various types of cells, particularly cancer cells. It works by sticking to the cancer cell’s DNA and damaging it . This damage to the DNA prevents the cancer cell from dividing and creating more cancer cells . This compound commonly causes low blood cell counts, including white blood cells (WBCs), red blood cells (RBCs), and platelets . This can lead to problems like fatigue (from low RBCs) and higher risk for bleeding (from low platelets). It can also raise the risk for serious and life-threatening infections (from low WBCs) .

Molecular Mechanism

The molecular mechanism of this compound involves its transformation into an active form that can interact with DNA. This compound is activated by liver microsomal enzymes to monomethyl triazeno imidazole carboxamide (MTIC), which is an alkylating compound . It causes methylation, modification, and cross-linking of DNA, thus inhibiting DNA, RNA, and protein synthesis .

Temporal Effects in Laboratory Settings

In laboratory settings, the effects of this compound can change over time. After intravenous administration, the volume of distribution of this compound exceeds total body water content, suggesting localization in some body tissue, probably the liver . This compound is subject to renal tubular secretion rather than glomerular filtration . In humans, this compound is extensively degraded, with 20-50% excreted unchanged in urine and 12-24% as aminoimidazole carboxamide (AIC) .

Metabolic Pathways

This compound is metabolized primarily in the liver, principally via CYP 1A2, and secondarily by CYP 2E1 . The principle liver enzyme responsible for this compound metabolism in humans is CYP 1A2, but CYP 2E1 may participate when CYP 1A2 expression is low .

Transport and Distribution

After intravenous administration of this compound, the volume of distribution exceeds total body water content, suggesting localization in some body tissue, probably the liver . This suggests that this compound is transported and distributed within cells and tissues, likely through the bloodstream.

Subcellular Localization

Given its mechanism of action, it can be inferred that this compound or its active metabolite MTIC interacts with DNA within the nucleus of the cell

Méthodes De Préparation

Synthetic Routes and Reaction Conditions: Dacarbazine is synthesized through a multi-step chemical process. The synthesis begins with the reaction of 5-amino-1H-imidazole-4-carboxamide with nitrous acid to form 5-diazoimidazole-4-carboxamide. This intermediate is then reacted with dimethylamine to yield this compound .

Industrial Production Methods: In industrial settings, this compound is produced in vials containing 100 and 200 milligrams of the drug along with anhydrous citric acid and mannitol. The vials are reconstituted with sterile water for injection to yield solutions containing 10 milligrams per milliliter of this compound . The reconstituted solutions are stable for up to 24 hours at room temperature and up to 96 hours under refrigeration when protected from light .

Comparaison Avec Des Composés Similaires

  • Procarbazine
  • Temozolomide
  • Carmustine

Dacarbazine’s unique properties, such as its specific mechanism of action and reduced teratogenic effects, make it a valuable chemotherapeutic agent in the treatment of various cancers.

Propriétés

IUPAC Name

4-(dimethylaminodiazenyl)-1H-imidazole-5-carboxamide
Details Computed by Lexichem TK 2.7.0 (PubChem release 2021.05.07)
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
Description Data deposited in or computed by PubChem

InChI

InChI=1S/C6H10N6O/c1-12(2)11-10-6-4(5(7)13)8-3-9-6/h3H,1-2H3,(H2,7,13)(H,8,9)
Details Computed by InChI 1.0.6 (PubChem release 2021.05.07)
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
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InChI Key

FDKXTQMXEQVLRF-UHFFFAOYSA-N
Details Computed by InChI 1.0.6 (PubChem release 2021.05.07)
Source PubChem
URL https://pubchem.ncbi.nlm.nih.gov
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Canonical SMILES

CN(C)N=NC1=C(NC=N1)C(=O)N
Details Computed by OEChem 2.3.0 (PubChem release 2021.05.07)
Source PubChem
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Molecular Formula

C6H10N6O
Details Computed by PubChem 2.1 (PubChem release 2021.05.07)
Record name DACARBAZINE
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DSSTOX Substance ID

DTXSID0020369
Record name Dacarbazine
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Molecular Weight

182.18 g/mol
Details Computed by PubChem 2.1 (PubChem release 2021.05.07)
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Physical Description

Dacarbazine appears as white to ivory microcrystals or off-white crystalline solid. (NTP, 1992), Solid
Details National Toxicology Program, Institute of Environmental Health Sciences, National Institutes of Health (NTP). 1992. National Toxicology Program Chemical Repository Database. Research Triangle Park, North Carolina.
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Details National Toxicology Program, Institute of Environmental Health Sciences, National Institutes of Health (NTP). 1992. National Toxicology Program Chemical Repository Database. Research Triangle Park, North Carolina.
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Solubility

less than 0.1 mg/mL at 59 °F (NTP, 1992), Water: (1 mg/ml at room temp), 1.36e+00 g/L
Details IARC. Monographs on the Evaluation of the Carcinogenic Risk of Chemicals to Humans. Geneva: World Health Organization, International Agency for Research on Cancer, 1972-PRESENT. (Multivolume work). Available at: https://monographs.iarc.fr/ENG/Classification/index.php, p. V26 204 (1981)
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Details IARC. Monographs on the Evaluation of the Carcinogenic Risk of Chemicals to Humans. Geneva: World Health Organization, International Agency for Research on Cancer, 1972-PRESENT. (Multivolume work). Available at: https://monographs.iarc.fr/ENG/Classification/index.php, p. V26 204 (1981)
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Details IARC. Monographs on the Evaluation of the Carcinogenic Risk of Chemicals to Humans. Geneva: World Health Organization, International Agency for Research on Cancer, 1972-PRESENT. (Multivolume work). Available at: https://monographs.iarc.fr/ENG/Classification/index.php, p. V26 204 (1981)
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Mechanism of Action

Dacarbazine functions as an alkylating agent after metabolic activation in the liver. It appears to inhibit the synthesis of RNA and protein more than it inhibits the synthesis of DNA. It kills cells slowly, and there appears to be no phase of the cell cycle in which sensitivity is increased ... ., ...FOR CHEMOTHERAPEUTIC EFFECTIVENESS, DACARBAZINE REQUIRES INITIAL ACTIVATION BY CYTOCHROME P450 SYSTEM OF LIVER THROUGH N-DEMETHYLATION REACTION. IN TARGET CELL...OCCURS SPONTANEOUS CLEAVAGE LIBERATING AIC /5-AMINOIMIDAZOLE-4-CARBOXAMIDE/ & ALKYLATING MOIETY, PRESUMABLY DIAZOMETHANE..., Although the mechanism of action of dacarbazine is not known in detail, it is demethylated by liver microsomal enzymes to form an unstable monoalkyl derivative which can decompose spontaneously into alkylating moieties. In light, dacarbazine can also rapidly undergo chemical decomposition to form 4-diazoimidazole-5-carboxamide, which is highly toxic but which has no antitumor activity in vivo ... .
Details IARC. Monographs on the Evaluation of the Carcinogenic Risk of Chemicals to Humans. Geneva: World Health Organization, International Agency for Research on Cancer, 1972-PRESENT. (Multivolume work). Available at: https://monographs.iarc.fr/ENG/Classification/index.php, p. V26 209 (1981)
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Color/Form

IVORY MICROCRYSTALINE SUBSTANCE

CAS No.

4342-03-4
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Record name Dacarbazine
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Melting Point

482 to 491 °F (explosively decomposes) (NTP, 1992), 205 °C, Melting point: 250-255 °C (explosive decomposition)
Details IARC. Monographs on the Evaluation of the Carcinogenic Risk of Chemicals to Humans. Geneva: World Health Organization, International Agency for Research on Cancer, 1972-PRESENT. (Multivolume work). Available at: https://monographs.iarc.fr/ENG/Classification/index.php, p. V26 203 (1981)
Record name DACARBAZINE
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Details IARC. Monographs on the Evaluation of the Carcinogenic Risk of Chemicals to Humans. Geneva: World Health Organization, International Agency for Research on Cancer, 1972-PRESENT. (Multivolume work). Available at: https://monographs.iarc.fr/ENG/Classification/index.php, p. V26 203 (1981)
Record name DACARBAZINE
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Description The Hazardous Substances Data Bank (HSDB) is a toxicology database that focuses on the toxicology of potentially hazardous chemicals. It provides information on human exposure, industrial hygiene, emergency handling procedures, environmental fate, regulatory requirements, nanomaterials, and related areas. The information in HSDB has been assessed by a Scientific Review Panel.
Details IARC. Monographs on the Evaluation of the Carcinogenic Risk of Chemicals to Humans. Geneva: World Health Organization, International Agency for Research on Cancer, 1972-PRESENT. (Multivolume work). Available at: https://monographs.iarc.fr/ENG/Classification/index.php, p. V26 203 (1981)
Record name Dacarbazine
Source Human Metabolome Database (HMDB)
URL http://www.hmdb.ca/metabolites/HMDB0014989
Description The Human Metabolome Database (HMDB) is a freely available electronic database containing detailed information about small molecule metabolites found in the human body.
Explanation HMDB is offered to the public as a freely available resource. Use and re-distribution of the data, in whole or in part, for commercial purposes requires explicit permission of the authors and explicit acknowledgment of the source material (HMDB) and the original publication (see the HMDB citing page). We ask that users who download significant portions of the database cite the HMDB paper in any resulting publications.

Retrosynthesis Analysis

AI-Powered Synthesis Planning: Our tool employs the Template_relevance Pistachio, Template_relevance Bkms_metabolic, Template_relevance Pistachio_ringbreaker, Template_relevance Reaxys, Template_relevance Reaxys_biocatalysis model, leveraging a vast database of chemical reactions to predict feasible synthetic routes.

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Strategy Settings

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Min. plausibility 0.01
Model Template_relevance
Template Set Pistachio/Bkms_metabolic/Pistachio_ringbreaker/Reaxys/Reaxys_biocatalysis
Top-N result to add to graph 6

Feasible Synthetic Routes

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