Selection sulfonamide

Loftin K., C. Henry, C. Adams, and M. Mormile (2005). Inhibition of microbial metabolism in anaerobic lagoons by selected sulfonamides, tetracycbnes, bncomycin, and tylosin tartrate. Environmental Toxicology and Chemistry 24 782-788. 

T. Pfeifer, J. Tuerk, K. Bester, M. Spiteller, Determination of selected sulfonamide antibiotics and trimethoprim in manure by ESI and APCI-MS-MS, Rapid Conunun. Mass Spectrom., 16 (2002) 663. 

Reichwein and Liskamp [24] developed another route using a Mitsunobu reaction instead of the selective sulfonamide deprotection with a strong base (Scheme 7.3B). To show the versatility of this solid-phase procedure, a N-ethyl scan of Leu-enkephalin has been performed. 

FIGURE 43-1 Structural formulas of selected sulfonamides and para-aminobenzoic acid. The N of the para- blK group is designated as N4 that of the amide NH, as Nl. 

Elaboration of the thiophene ring can be achieved by standard electrophilic substitution reactions, which are normally favored at the a-carbons for thiophene and at the 3-position for benzo[fc]thiophene. Reductive alkylation of aminocarbamate 72 with butyraldehyde in the presence of selenophenol gave thiophene 73 . Treatment of 3-methylthiophene with chlorosulfonic acid followed by tcrt-butylamine led to selective sulfonamidation producing 74 . Similarly, selective 2-iodination of 3-alkylthiophenes was ob.served upon treatment with iodine in the presence of mercuric oxide . Exhaustive bromination of thieno[3,2-7i]thiophene 27 gave 2,3,5,6-tetrabromothieno[3,2-ii]thiophene which was... 

Pfeifer, T., Tuerk, J., Bester, K., and Spiteller, M. (2002) Determination of selected sulfonamide antibiotics and trimethoprim in manure by electrospray and atmospheric pressure chemical ionization tandem mass spectrometry. Rapid Communications in Mass Spectrometry 16, 663-669. 

Other studies concern the electrochemical behavior of derivatives of simple aromatic compounds. Different voltammetric behavior of aniline/ benzoic, and salicylic acids and phthalic anhydride, and of hydroquinone, resorcinol, and catechol was reported at BDD electrode. Nevertheless, bulk electrolysis of these pollutants at BDD electrode leads to their complete mineralization with exception of aniline with about 80 % conversion. Other study was devoted to the determination of residues of selected sulfonamides in egg samples by HPLC with amperometric detection at BDD electrode. ... 

Although the antibacterial spectmm is similar for many of the sulfas, chemical modifications of the parent molecule have produced compounds with a variety of absorption, metaboHsm, tissue distribution, and excretion characteristics. Administration is typically oral or by injection. When absorbed, they tend to distribute widely in the body, be metabolized by the Hver, and excreted in the urine. Toxic reactions or untoward side effects have been characterized as blood dyscrasias crystal deposition in the kidneys, especially with insufficient urinary output and allergic sensitization. Selection of organisms resistant to the sulfonamides has been observed, but has not been correlated with cross-resistance to other antibiotic families (see Antibacterial AGENTS, synthetic-sulfonamides). 

Aminoisoxazoles can be determined photometrically by reaction with sodium 1,2-naph-thoquinone-4-sulfonate and selective extraction of the resulting dye into CCI4 for absorbance measurements. This class of compound can be determined in the presence of sulfonamides, sulfanilamides, hydroxylamines and other select amines (74MI41610). 

The selective reaction of anionic 3,6-dichloro-4-sulfanilamidopy-ridazine with excess methanolic methoxide at the 3-position is another indication of the absence of major steric effects in most nucleophilic substitutions, as a result of the direction of nucleophilic attack (cf. Section II, A, 1). The selectivity at the 3-position is an example of the interaction of substituent effects. The sulfonamide anion deactivates both the 3-chloro (ortho direct deactivation) and... 

As part of an independent study of catalytic asymmetric cyclopropanation, Denmark et al. described a systematic investigation of the effect of addition order, stoichiometry and catalyst structure on sulfonamide-catalyzed Simmons-Smith cyciopropanations. Although early studies had shown promising levels of enantios-electivity, higher selectivity would be required for this to be a synthetically useful transformation. The principal issues that were addressed by this study included ... 

The 1,2-cyclohexanediamine-derived sulfonamide is not unique in its ability to afford enantiomerically enriched cyclopropanes. The efforts at improving the original protocol led not only to higher selectivity, but to a deeper understanding of the nature of the catalytic process. 

Having observed that (i) the zinc carbenoid must be formed prior to addition of the alcohol or sulfonamide and (ii) that the zinc alkoxide should be preformed in order to obtain high selectivity, the importance of the zinc sulfonamide could be assessed (Fig. 3.14). In this sub-set, flask A contains the preformed zinc alkoxide, flask B contains the promoter solution and flask C contains the preformed zinc carbenoid. In sub-protocol Ilia, flasks A and C are combined prior to addi-... 

Although the previous protocol suggests it is not necessary to deprotonate the sulfonamide prior to exposure to the zinc carbenoid, a experimentally simpler procedure can be envisioned wherein the alcohol and promoter are deprotonated in a single flask (Fig. 3.15). In protocol IV, the alcohol and promoter are combined in flask A and are treated with diethylzinc, thus forming the zinc alkoxide and zinc sulfonamide. In sub-protocol IVa, this solution is transferred to flask C which contains the zinc carbenoid. Sub-protocol IVb represents the reversed addition order. Sub-protocol IVa is not only found to be the superior protocol in this sub-set, it is found to out-perform all of the previous protocols Despite the persistence of the induction period, a large rate enhancement over the uncatalyzed process is observed. This considerable rate enhancement also translates to a reduction in the overall reaction time when compared to sub-protocols la and Ilia. Selectivity rises... 

Since the ring nitrogen at 3 is now comparable in reactivity to the amine at 4, acylation with one equivalent of 88 gives a mixture of products. The desired product, sulfaisodimidine (109), can be obtained by acylation with an excess of the sulfonyl chloride (140) followed by alkaline hydrolysis. The rate of saponification of the sulfonamide group attached to the ring nitrogen is sufficiently greater to cause it to be lost selectively. 

Two recent reports described addition of nitrogen-centered nucleophiles in usefully protected fonn. Jacobsen reported that N-Boc-protected sulfonamides undergo poorly selective (salen) Co-catalyzed addition to racemic epoxides. However, by performing a one-pot, indirect kinetic resolution with water first (HKR, vide infra, Table 7.1) and then sulfonamide, it was possible to obtain highly enantiomer-ically enriched addition products (Scheme 7.39) [71]. These products were transformed into enantioenriched terminal aziridines in straightforward manner. 

Only one example, showing high stereoselectivity, is known in this class of reactions. On treatment of the acyclic glycine cation equivalent 1 (see Appendix), containing the ( + )-cam-phor-10-sulfonamide ester as a chiral auxiliary, with boron trifluoridc and anisole at 0"C a mixture of aromatic substitution products is obtained in essentially quantitative yield 55. Besides 11 % of cuV/io-substitution product, the mixture contains (R,S)-2 and its (/ ,/ )-epimer in a ratio >96 4 (NMR). The same stereoisomer 2 predominates when the reaction is conducted in sulfuric acid/acetic acid 1 9, although the selectivity is slightly lower (91 9 besides 25% of ortho substitution). 

Optically active bicyclo[2.2,2]octanes can be obtained via diastercoselective MIMIRC reaction of lithium dienolates and a,/ -unsaturated esters of various chiral alcohols. Good yields (70-90%), high endo selectivities (> 95%) and diastereomeric ratios that depend on the auxiliary alcohol are found in these additions. The highest diastereomeric ratio reached was 18 82 using a camphor derived sulfonamide. The diastereomeric ratio could be improved (up to 9 91) by titanium(IV) chloride catalyzed addition of the corresponding silylenolates with the chiral a,/J-unsaturated esters358. 

The phenomenon of bacterial resistance to antibiotics was already known by the pioneers of the era of antibiotics, like Paul Ehrlich, who coined the term selective toxicity as the basic principle of antimicrobial therapeutics, as well as Gerhard Domagk, the inventor of the sulfonamide drugs, and Sir Alexander Fleming, the discoverer of the penicillins. When penicillin G was introduced into clinical practice in 1944, as many as 5% of the isolates of Staphylococcus aureus were resistant to penicillin, while 5 years later the percentage was 50%. 

Accessory DHPS enzymes confer resistance to sulfonamides. Two different types encoded by the genes sull (located on transposons) and sulll (located on plasmids) have been described. These resistance determinants are often genetically linked to trimethoprim resistance genes. Therefore, the combination of sulfonamide antibiotics with trimethoprim does not prevent resistance selection. 

Antibiotics possess antibacterial activity and are used in the treatment of eye infections. Sulfonamides possess a bacteriostatic effect against a wide range of gram-positive and gram-negative microorganisms. They are used in the treatment of conjunctivitis, comeal ulcer, and other superficial infections of the eye. See the Summary Drug Table Select Ophthalmic Preparations and Chapter 6 for additional information on the sulfonamides. 

In 2004, Alterman et al. apphed their cyanation protocol to the synthesis of N-(t-butyl)-3-(4-cyanobenzyl)-5-isobutylthiophene-2-sulfonamide [61]. Deprotection of the sulfonamide followed by carbamate formation via reaction with butyl chloroformate finally gave the target compoimd for biological evaluation as a selective angiotensin 11 AT2 receptor agonist (Scheme 65). The cyano derivative, however, showed only a low affinity for the AT2 receptor (Ki value >10 p,M). 

Sulfonic esters are most frequently prepared by treatment of the corresponding halides with alcohols in the presence of a base. The method is much used for the conversion of alcohols to tosylates, brosylates, and similar sulfonic esters. Both R and R may be alkyl or aryl. The base is often pyridine, which functions as a nucleophilic catalyst, as in the similar alcoholysis of carboxylic acyl halides (10-21). Primary alcohols react the most rapidly, and it is often possible to sulfonate selectively a primary OH group in a molecule that also contains secondary or tertiary OH groups. The reaction with sulfonamides has been much less frequently used and is limited to N,N-disubstituted sulfonamides that is, R" may not be hydrogen. However, within these limits it is a useful reaction. The nucleophile in this case is actually R 0 . However, R" may be hydrogen (as well as alkyl) if the nucleophile is a phenol, so that the product is RS020Ar. Acidic catalysts are used in this case. Sulfonic acids have been converted directly to sulfonates by treatment with triethyl or trimethyl orthoformate HC(OR)3, without catalyst or solvent and with a trialkyl phosphite P(OR)3. ... 

---