Muraymycin Nucleoside Antibiotics: Structure-Activity Relationship for Variations in the Nucleoside Unit

Abstract: Muraymycins are a subclass of naturally occurring nucleoside antibiotics with promising antibacterial activity. They inhibit the bacterial enzyme translocase I (MraY), a clinically yet unexploited target mediating an essential intracellular step of bacterial peptidoglycan biosynthesis. Several structurally simplified muraymycin analogues have already been synthesized for structure–activity relationship (SAR) studies. We now report on novel derivatives with unprecedented variations in the nucleoside unit. For t… Show more

“…The desired product 31 was then obtained in 64 % yield after aqueous workup and chromatographic purification. Finally, the secondary amine was Cbz‐deprotected under transfer hydrogenation conditions (1,4‐cyclohexadiene and Pd black in iso ‐propanol) to avoid unwanted reduction of the uracil C5‐C6 double bond [12b, 13b] . The identity of the obtained product was confirmed by LC‐MS analysis only, and the secondary amine was directly submitted to a final amide coupling with the m‐ tyrosine building block 19 .…”

Merging Natural Products: Muraymycin–Sansanmycin Hybrid Structures as Novel Scaffolds for Potential Antibacterial Agents

“…The desired product 31 was then obtained in 64 % yield after aqueous workup and chromatographic purification. Finally, the secondary amine was Cbz‐deprotected under transfer hydrogenation conditions (1,4‐cyclohexadiene and Pd black in iso ‐propanol) to avoid unwanted reduction of the uracil C5‐C6 double bond [12b, 13b] . The identity of the obtained product was confirmed by LC‐MS analysis only, and the secondary amine was directly submitted to a final amide coupling with the m‐ tyrosine building block 19 .…”

Merging Natural Products: Muraymycin–Sansanmycin Hybrid Structures as Novel Scaffolds for Potential Antibacterial Agents

“…Hence, we had envisioned to prepare uridine-derived building block 5 (see Scheme 2) that could then be connected to the solid phase. The design of 5 was based on our previously reported strategy to simplify the muraymycin core structure by omission of the 5′-substituent ("5′-deoxy" analogues) [30,33,[35][36][37][38]. Carboxylic acid 5 was intended to be attached to a trityl resin by formation of a trityl ester.…”

“…For muraymycins, a co-crystal structure in complex with MraY has been reported, enabling deeper insights into the inhibitor-target interaction [23][24][25]. However, experimental structure-activity relationship (SAR) studies are still crucial due to the pronounced conformational plasticity of MraY, and have therefore been carried out extensively as exemplified by the according work on muraymycins [26][27][28][29][30][31][32][33][34][35].…”

“…For muraymycins, a co-crystal structure in complex with MraY has been reported, enabling deeper insights into the inhibitor-target interaction [23][24][25]. However, experimental structure-activity relationship (SAR) studies are still crucial due to the pronounced conformational plasticity of MraY, and have therefore been carried out extensively as exemplified by the according work on muraymycins [26][27][28][29][30][31][32][33][34][35]. In contrast to previously reported solution-phase syntheses of muraymycin derivatives [28,30,31], we have recently described a solid phase-supported approach for the preparation of In contrast to previously reported solution-phase syntheses of muraymycin derivatives [28,30,31], we have recently described a solid phase-supported approach for the preparation of structurally Molbank 2020, 2020, M1122; doi:10.3390/M1122…”

Unexpected Seven-Membered Ring Formation for Muraymycin-Type Nucleoside-Peptide Antibiotics

“…For muraymycins, a co-crystal structure in complex with MraY has been reported, enabling deeper insights into the inhibitor-target interaction [23][24][25]. However, experimental structure-activity relationship (SAR) studies are still crucial due to the pronounced conformational plasticity of MraY, and have therefore been carried out extensively as exemplified by the according work on muraymycins [26][27][28][29][30][31][32][33][34][35]. In contrast to previously reported solution-phase syntheses of muraymycin derivatives [28,30,31], we have recently described a solid phase-supported approach for the preparation of structurally simplified muraymycin analogues [36].…”

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