Steric effect in alkylation reactions by <i>N</i>‐alkyl‐<i>N</i>‐nitrosoureas: a kinetic approach

Manso, José A.; Pérez‐Prior, María Teresa; García-Santos, M. Pilar; Calle, Emilio; Casado, Julio

doi:10.1002/poc.1402

Cited by 19 publications

(29 citation statements)

References 20 publications

(6 reference statements)

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“…The value of the rate constants for NBP alkylation by phenylnitrosourea is consistent with its biological activity in comparison with other nitrosoureas. [9] The NBP alkylation rate constant by the methyldiazonium ion (previously calculated with data from [5] and [20] ) is about 20,000-fold greater than that of the phenyldiazonium ion. This result is consistent with their relative biological activities, can be observed in Table 2.…”

Section: Resultsmentioning

confidence: 89%

“…In the 5.0-6.0 pH range, no dependence on the acidity of the medium was observed, unlike other nitrosoureas. [5] Therefore, the mechanism of the NBP alkylation by PhNU, through the formation of the benzenediazonium ion, which is more stable than aliphatic alkyldiazonium ions, must be different from that of other nitrosoureas. Since the intercept of the k 1 /[NBP] plot is not significantly different from 0 ( Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Integration of Eqn (1) gives Figure 3 shows the fitting of the experimental data to Eqn (5). In order to calculate the alkylation rate constant, k alk (Scheme 1), experiments at different [NBP] were carried out (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…We found that these alkylation reactions occur mainly through steric control. [5] Due to its instability, N-phenyl-N-nitrosourea [6] (PhNU) is easily hydrolyzed to a benzenediazonium ion (PhN þ 2 ) [7] and induces local tumors in rats. [8] However, painting PhNU on mouse skin failed or induced few skin tumors.…”

Section: Introductionmentioning

confidence: 99%

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Alkylating potential of N‐phenyl‐N‐nitrosourea

Manso

Pérez‐Prior

Gómez‐Bombarelli

et al. 2008

J of Physical Organic Chem

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Alkylating agents are considered to be archetypical carcinogens. Since the decomposition of alkylnitrosoureas gives rise to alkyldiazonium ions without any need for metabolic activation, they offer an ideal series of compounds with which to examine the effect of variations in chemical structure on alkylating potential. Due to its instability N-phenyl-N-nitrosourea is easily hydrolyzed to a benzenediazonium ion. Since N-phenyl-N-nitrosourea shows a particular behavior when compared with other nitrosoureas, here its alkylating potential was studied. The nucleophile 4-( p-nitrobenzyl)pyridine (NBP), a trap for alkylating agents, was used as an alkylation substrate. Conclusions were drawn as follows: (i) the mechanism of the alkylation reaction of NBP by phenylnitrosourea is different from that caused by other nitrosoureas; (ii) the formation of the NBP-N-phenyl-N-nitrosourea adduct occurs about 20,000-fold slower than with N-methyl-N-nitrosourea, one of the most effective carcinogenic nitrosoureas; and, (iii) a correlation was found between the alkylating potential of nitrosoureas and their tumorigenicity.

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Section: Resultsmentioning

confidence: 89%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Alkylating potential of N‐phenyl‐N‐nitrosourea

Manso

Pérez‐Prior

Gómez‐Bombarelli

et al. 2008

J of Physical Organic Chem

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“…In previous work we studied the in vitro reactivity of several alkylating compounds capable of forming DNA adducts: sorbic acid [4] and sorbates [5], nitrosoureas [6,7], p-nitrostyrene oxide [8], and lactones [9][10][11][12]. The results revealed a correlation between the carcinogenicity of the substances and their reactivity with 4-(p-nitrobenzyl)pyridine (NBP), a trap for alkylating agents with nucleophilicity similar to that of DNA [13,14].…”

Section: Introductionmentioning

confidence: 97%

The reactivity of vinyl compounds as alkylating agents

et al. 2012

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The reactions of 4-(p-nitrobenzyl)pyridine (a trap for alkylating agents with nucleophilicity similar to that of DNA) with the vinyl compounds acrylonitrile, acrylamide, acrylic acid, and acrolein, which can act as alkylating agents of DNA, were investigated. The following conclusions were drawn: (1) vinyl compounds show an alkylating capacity on 4-(p-nitrobenzyl)pyridine. The sequence of the alkylating potential was found to be acrylonitrile [ acrylamide [ acrylic acid [ acrolein (alkylation with acrolein was not observed after 3 weeks). The formation of adducts with acrylonitrile was approximately 10-and 100-fold faster than with acrylamide and acrylic acid, respectively, which is consistent with its highly carcinogenic and mutagenic activity. (2) 4-(p-Nitrobenzyl)pyridine alkylation reactions by vinyl compounds occur through an enthalpycontrolled Michael addition mechanism. The values for the free energy of activation for these reactions with 4-(p-nitrobenzyl)pyridine were: D à G°(37°C) acrylonitrile, 98 ± 1 kJ mol -1 ; acrylamide, 105 ± 2 kJ mol -1 ; acrylic acid, 109 ± 1 kJ mol -1 . (3) Application of Hammett treatment to the kinetic results revealed that these alkylation reactions occur through nucleophilic attack, being moderately accelerated by electron-withdrawing groups.

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Nucleophilic Aliphatic Substitution

Knipe¹

2011

Organic Reaction Mechanisms · 2008

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Steric effect in alkylation reactions by N‐alkyl‐N‐nitrosoureas: a kinetic approach

Cited by 19 publications

References 20 publications

Alkylating potential of N‐phenyl‐N‐nitrosourea

Alkylating potential of N‐phenyl‐N‐nitrosourea

The reactivity of vinyl compounds as alkylating agents

Nucleophilic Aliphatic Substitution

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