The New Delhi metallo-beta-lactamase (NDM-1) mediates resistance to beta-lactam antibiotics. NDM-1 was likely formed as the result of a gene fusion between sequences encoding the first six amino acids of cytoplasm-localised aminoglycosidase, AphA6, and a periplasmic metallo-b-lactamase. We show that NDM-1 has an atypical signal peptide and is inefficiently secreted. Two new bla(NDM-1) alleles that have polymorphisms in the signal peptide; NDM-1(P9R), a proline to arginine substitution, and NDM-2, a proline to alanine substitution (P28A) were studied. Here, we show that both the P9R and P28A substitutions improve secretion compared to NDM-1 and display higher resistance to some beta-lactam antibiotics. Mass spectrometry analysis of these purified NDM proteins showed that the P28A mutation in NDM-2 creates new signal peptide cleavage sites at positions 27 and 28. For NDM-1, we detected a signal peptide cleavage site between L21/M22 of the precursor protein. We find no evidence that NDM-1 is a lipoprotein, as has been reported elsewhere. In addition, expression of NDM-2 improves the fitness of E. coli, compared to NDM-1, in the absence of antibiotic selection. This study shows how optimization of the secretion efficiency of NDM-1 leads to increased resistance and increased fitness. (C) 2020 Elsevier Inc. All rights reserved.