Sulfonamides activity

The table shows the structural formulae of some sulfonamides. Some sulfonamides are antibacterial agents (shown in green in the first column of the table) and some (in the second column, in red) have no antibacterial activity. By examining both sets of structures you can see that the structural fragment that makes sulfonamide active is ... 

A novel route for the synthesis of piperazin-2-ones on a solid support relies on an intramolecular Mitsunobu reaction [111]. First, commercially available amino alcohols are attached to an aldehyde resin by reductive ami-nation. The alcohol function is protected and the secondary amine obtained is acylated with an amino add. Sulfonamide activation of the free amino group allows intramolecular alkylation through a Mitsunobu reaction, and thereby the formation of a derivatized ring. 

Sulfonamide Activity Infrared studies to determine the polarity of the sulfone group in the sulfonamides (Seydel et al., 1960 Wahl, 1965) have challenged Bell and Roblin s (1942) hypothesis that a sulfonamide with a more polar SO2 group (i.e., more negative) is more active in its action against microbes. Wahl (1965) did not support a hypothesis of Seydel et al. (1960 1961) that the reactivity of the primary amino group in the sulfonamides is most important for sulfonamide action. 

Special mention obviously must be given to sulfonamide derivatives of the thiazole ring. A complete coverage of the field is beyond the scope of this review however, some examples of their activity may be given here ... 

Much of the development of the chemistry of sulfanilamidoselenazole derivatives is a result of the important role played by sulfonamides in chemotherapy and more particularly the good activity of sulfathiazoie against bacterial infections. Backer and De Jonge (441 prepared these derivatives by reaction of 2-amino-4-methyl- and 2-aminO-4-phenyl-selenazoles with A -acetylsulfanilic acid chloride in pyridine.. Alkaline... 

Sulfonamides prepared from 2-aminoselenazoles by normal methods sometimes possess activity comparable to that of sulfathiazole (45, 47). 

Cyclothia2ide [2259-96-3] is another example of a duorine-free pharmaceutical (diuretic, antihypertensive) based on y -chloroduoroben2ene [625-98-9] where duorine activation is subsequentiy provided by two sulfonamide groups (156). 

Sulfonylureas. The hypoglycemic effect of sulfonylureas was first noted in the early 1940s when several patients died in hypoglycemic coma after testing glyprothia2ole, a synthetic sulfonamide used to treat typhoid. Chemical modifications which enhanced activity and lowered toxicity led to the development of the first-generation sulfonylureas. Carbutamide [339-43-5] the first commercial sulfonylurea, came onto the European... 

Relatively unambiguous monotonic SARs also occur where activity depends on the ionization of a particular functional group. A classic example (Fig. 5) is that of the antibacterial sulfonamides where activity is exerted by competitive inhibition of the incorporation of j -amin ohenzoic acid into foHc acid (27). The beU-shaped relationship is consistent with the sulfonamide acting as the anion but permeating into the cell as the neutral species. 

Fig. 5. Relationship between antibacterial activity of sulfonamides (log 1/C ) and piC of sulfonamide NH group where represents the concentration...

Sulfonamides derived from sulfanilamide (p-arninoben2enesulfonainide) are commonly referred to as sulfa dmgs. Although several dmg classes are characterized by the presence of a sulfonamide function, eg, hypoglycemics, carbonic anhydrase inhibitors, saluretics, and tubular transport inhibitors, the antibacterial sulfonamides have become classified as the sulfa dmgs. Therapeutically active derivatives are usually substituted on the N nitrogen the position is generally unsubstituted. These features are illustrated by the stmctures of sulfanilamide (1) and sulfadiazine (2)... 

In another attempt to relate degree of ionization with antibacterial activity, the effect of pH of the medium on the antibacterial activity was studied (27,28). Activity increased with increase in pH only up to the point at which the dmg was 50% ionized, and then decreased. The interpretation of this was that sulfonamides penetrate the bacterial cell in the unionized form, but once inside the cell, the equiUbrium between ionized and unionized forms is reestabhshed, and the activity is due to the ionized form. For optimum activity, a sulfonamide should have a p that provides half-dissociation at the physiologic pH in the area where it is absorbed. This observation also provided an explanation of the paraboHc relationship between piC and MIC (24). 

In subsequent studies attempting to find a correlation of physicochemical properties and antimicrobial activity, other parameters have been employed, such as Hammett O values, electronic distribution calculated by molecular orbital methods, spectral characteristics, and hydrophobicity constants. No new insight on the role of physiochemical properties of the sulfonamides has resulted. Acid dissociation appears to play a predominant role, since it affects aqueous solubiUty, partition coefficient and transport across membranes, protein binding, tubular secretion, and reabsorption in the kidneys. An exhaustive discussion of these studies has been provided (10). 

For the sulfonamides, the best activity is found where R is heterocycHc, but it can also be isocycHc or acyl. For the sulfones, R can be phenylene or a heterocycle the parent dapsone, where R is phenyl, is the most active. 

In a few cases, A/ -heterocycHc sulfanilamides have been prepared by the condensation of an active heterocycHc haHde with the sulfonamide nitrogen of sulfanilamide or its A/-acetyl derivative in the presence of an acid-binding agent. Sulfapyridine, sulfadiazine, and sulfapyrazine have been made by this method (1), but the most important appHcation is probably for the synthesis of sulfachlorapyridazine (9) and sulfamethoxypyridazine (10) (45). 

A study of the effect of stearic acid and 2iac oxide on a sulfonamide-accelerated, sulfiir-cured natural mbber compound dramatically showed the need for both 2iac and fatty acid activators (Fig. 7) (21). 

Most drugs in the pyrimidine series fall into four categories the barbiturates, the sulfonamides, the antimicrobials and the antitumour agents. In addition there are innumerable pyrimidines with diverse biological activities, some of which are in use. 

Sulfaphenazole (684) and sulfazamet (685) are both examples of relatively short acting sulfonamides (B-80MI40406) and their antibacterial activity has been tested against Escherichia coli, the former being more effective than the latter. Sulfaphenazole also displaces sulfonyl ureas from protein binding sites on human serum albumin and consequently increases the concentration of the free (active) drug and produces a more intense reaction that may result in hypoglycemia. 

Muzolimine (710), a 1-substituted 2-pyrazolin-5-one derivative, is a highly active diuretic, differing from the structures of other diuretics since it contains neither a sulfonamide nor a carboxyl group. It has a saluretic effect similar to furosemide and acts in the proximal tubule and in the medullary portion of the ascending limb of the loop of Henle. Pharmacokinetic studies in dogs, healthy volunteers and in patients with renal insufficiency show that the compound is readily absorbed after oral administration (B-80MI40406). 

Acetanilides, benzoyl-colour couplers in colour photography, 1, 372 Acetanilides, pivaloyl-colour couplers in colour photography, 1, 372 Acetazolamide — see l,3,4-Thiadiazole-2-sulfonamide, 5-acetamido-Acetic acid, acetamidocyano-ethyl ester, 1, 307 Acetic acid, 2-acylphenyl-isochroman-3-one synthesis from, 3, 858 Acetic acid, 3-benzo[6]thiophenyl-biological activity, 4, 912 Acetic acid, l,2-benzoxazol-3-yl-electrophilic substitution, 6, 48... 

A polymer-supported sulfonamide, prepared from an amino acid activated ester and a polystyrene-sulfonamide, is stable to acidic hydrolysis (CF3COOH HBr/ HOAc). It is cleaved by the safety-catch method shown below. ... 

Aryl bromides were also perfluoroethylated under these conditions [205] The key to improved yields was the azeotropic removal of water from the sodium perfluoroalkylcarboxylate [205] Partial success was achieved with sodium hepta-fluorobutyrate [204] Related work with halonaphthalene and anthracenes has been reported [206 207] The main limitation of this sodium perfluoroalkylcarboxylate methodology is the need for 2 to 4 equivalents of the salt to achieve reasonable yields A trifluoromethylcopper solution can be prepared by the reaction of bis(tri-fluoromethyl)mercury with copper powder in /V-methylpyrrolidone (NMP) at 140 °C [208] (equation 138) or by the reaction of N-trifluoromethyl-A-nitro-sotnfluoromethane sulfonamide with activated copper in dipolar aprotic solvents [209] This trifluoromethylcopper solution can be used to trifluoromethylate aro matic [209], benzylic [209], and heterocyclic halides [209]... 

A polymer-supported sulfonamide, prepared from an amino acid activated ester... 

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