Synthesis and functionalization of ring-fused 2-pyridones : Targeting pili formation in <i>E. coli</i>

Pemberton, Nils

January 2007

<p>Bicyclic dihydrothiazolo fused 2-pyridones have been studied as a new class of antibacterial agents, termed pilicides, that target the formation of adhesive bacterial surface organelles (pili) in pathogenic bacteria. Synthetic methods to further functionalize the bicyclic 2-pyridone scaffold have been developed in order to increase water-solubility and thereby facilitate biological evalua-tions. This was accomplished by introducing aminomethylenes at the open position C-6. Tertiary amines were introduced via a microwave–assisted Mannich reaction and a synthetic route based on a formyl intermediate gave access to primary, secondary and tertiary amines, but also to other interesting functionalities. Biological evaluation confirmed that several of the function-alized compounds inhibited pili formation in uropathogenic <i>E. coli</i>., as dem-onstrated by assays of hemagglutination, biofilm formation and adherence to bladder cells. Co-crystallizing one of the pilicides with the target protein gave information about the binding site and based on this a mechanism of action was proposed, which was supported experimentally by surface plas-mon resonance and single point mutations in the protein.</p><p>Furthermore, the previously developed acylketene imine reaction used to prepare bicyclic thiazolo fused 2-pyridone pilicides has been developed to allow preparation of other ring-fused 2-pyridone systems. Benzo[a]quinolizine-4-ones and indolo[2,3-a]quinolizine-4-ones could be prepared in a fast and simple manner starting from dihydroisoquinolines and a β-carboline. Finally, this method could also be applied for the preparation of heteroatom analogs of the previously studied sulfur containing pilicides. Biological evaluations established that the sulfur atom can be replaced by oxygen and still maintain the ability to prevent pili assembly.</p>

2-pyridone

acylketene

antibacterial

biofilm inhibitor

Mannich

Micro-wave-assisted chemistry

peptidomimetic

virulence.

Organic synthesis

Organisk syntes

Synthesis and functionalization of ring-fused 2-pyridones : Targeting pili formation in E. coli

Pemberton, Nils

January 2007

Bicyclic dihydrothiazolo fused 2-pyridones have been studied as a new class of antibacterial agents, termed pilicides, that target the formation of adhesive bacterial surface organelles (pili) in pathogenic bacteria. Synthetic methods to further functionalize the bicyclic 2-pyridone scaffold have been developed in order to increase water-solubility and thereby facilitate biological evalua-tions. This was accomplished by introducing aminomethylenes at the open position C-6. Tertiary amines were introduced via a microwave–assisted Mannich reaction and a synthetic route based on a formyl intermediate gave access to primary, secondary and tertiary amines, but also to other interesting functionalities. Biological evaluation confirmed that several of the function-alized compounds inhibited pili formation in uropathogenic E. coli., as dem-onstrated by assays of hemagglutination, biofilm formation and adherence to bladder cells. Co-crystallizing one of the pilicides with the target protein gave information about the binding site and based on this a mechanism of action was proposed, which was supported experimentally by surface plas-mon resonance and single point mutations in the protein. Furthermore, the previously developed acylketene imine reaction used to prepare bicyclic thiazolo fused 2-pyridone pilicides has been developed to allow preparation of other ring-fused 2-pyridone systems. Benzo[a]quinolizine-4-ones and indolo[2,3-a]quinolizine-4-ones could be prepared in a fast and simple manner starting from dihydroisoquinolines and a β-carboline. Finally, this method could also be applied for the preparation of heteroatom analogs of the previously studied sulfur containing pilicides. Biological evaluations established that the sulfur atom can be replaced by oxygen and still maintain the ability to prevent pili assembly.

2-pyridone

acylketene

antibacterial

biofilm inhibitor

Mannich

Micro-wave-assisted chemistry

peptidomimetic

virulence.

Organic synthesis

Organisk syntes

Pilicides and Curlicides : Design, synthesis, and evaluation of novel antibacterial agents targeting bacterial virulence

Chorell, Erik

January 2010

New strategies are needed to counter the growing problem of bacterial resistance to antibiotics. One such strategy is to design compounds that target bacterial virulence, which could work separately or in concert with conventional bacteriostatic or bactericidal antibiotics. Pilicides are a class of compounds based on a ring-fused 2-pyridone scaffold that target bacterial virulence by blocking the chaperone/usher pathway in E. coli and thereby inhibit the assembly of pili. This thesis describes the design, synthesis, and biological evaluation of compounds based on the pilicide scaffold with the goal of improving the pilicides and expanding their utility. Synthetic pathways have been developed to enable the introduction of substituents at the C-2 position of the pilicide scaffold. Biological evaluation of these compounds demonstrated that some C-2 substituents give rise to significant increases in potency. X-ray crystallography was used to elucidate the structural basis of this improved biological activity. Furthermore, improved methods for the preparation of oxygen-analogues and C-7 substituted derivatives of the pilicide scaffold have been developed. These new methods were used in combination with existing strategies to decorate the pilicide scaffold as part of a multivariate design approach to improve the pilicides and generate structure activity relationships (SARs). Fluorescent pilicides were prepared using a strategy where selected substituents were replaced with fluorophores having similar physicochemical properties as the original substituents. Many of the synthesized fluorescent compounds displayed potent pilicide activities and can thus be used to study the complex interactions between pilicide and bacteria. For example, when E. coli was treated with fluorescent pilicides, it was found that the compounds were not uniformly distributed throughout the bacterial population, suggesting that the compounds are primarily associated to bacteria with specific properties. Finally, by studying compounds designed to inhibit the aggregation of Aβ, it was found that some compounds based on the pilicide scaffold inhibit the formation of the functional bacterial amyloid fibers known as curli; these compounds are referred to as 'curlicides'. Some of the curlicides also prevent the formation of pili and thus exhibit dual pilicide-curlicide activity. The potential utility of such 'dual-action' compounds was highlighted by a study of one of the more potent dual pilicide-curlicides in a murine UTI model were the compound was found to significantly attenuate virulence in vivo.

pilicide

curlicide

anti-virulence

chaperone/usher pathway

antibacterial

pili

curli

Escherichia coli

biofilm inhibitor

2-pyridone

peptidomimetic

Organic chemistry

Organisk kemi

Bioorganic chemistry

Bioorganisk kemi

Pharmaceutical chemistry

Läkemedelskemi

Organic synthesis

Organisk syntes

Infectious diseases

Infektionssjukdomar