Compounds, compositions, and methods for the diagnosis and/or treatment of medical conditions involving infections with and colonization by Pseudomonas bacteria including, for example, Pseudomonas aeruginosa in the lungs of patients with cystic fibrosis are described.

The invention provides bipartite, dual-targeted inhibitors of bacterial RNA polymerase having the general structural formula (I): X-α-Y (I) wherein X is an moiety that binds to the Rif target of a bacterial RNA polymerase; Y is a moiety that binds to the bridge-helix N-terminus target of a bacterial RNA polymerase; and is a covalent bond or a linker. The invention also provides compositions comprising such compounds, methods of making such compounds, and methods of using said compounds. The invention has applications in control of bacterial gene expression, control of bacterial growth, antibacterial chemistry, and antibacterial therapy.

The invention provides a conjugate of formula I:
R-L-Y   I
or a salt thereof, wherein R, L, and Y have any of the values described in the specification, as well as compositions comprising a conjugate of formula I. The conjugates are useful for labeling.

The present application relates to novel 3-imidazolines of formula (I′) and (I) below: (I′) (I) Wherein Ar.sub.1, Ar.sub.2, Ar.sub.3, and R.sub.1 to R.sub.6 are as defined in the claims. The 3-imidazolines of the invention are useful in antibiotic therapies, in particular as inhibitors of carbapenemases. They are also useful as antibiotics themselves. The present invention also concerns a method for preparing more specifically the 3-imidazolines of formula (I). The present invention further relates to conjugates of said compounds with known antibiotics.

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Described herein are bisphosphonate quinolone compounds, conjugates and pharmaceutical formulations thereof that can include a bisphosphonate and a quinolone, where the quinolone can be releasably coupled to the bisphosphonate. Also provided herein are methods of making and methods of using the bisphosphonate quinolone compounds, conjugates and pharmaceutical formulations thereof.

The present invention generally relates to artemisinin/dihydroartemisinin (DHA) derivatives, and their use for therapy, in particular cancer therapy. These tumor-homing artemisinin derivatives (THAD) comprise three moieties: an artemisinin/DHA or a derivative thereof, a heptamethine carbocyanine dye (HMCD) residue, and a linker that conjugates the HMCD dye residue to the artemisinin residue. The THAD include compounds wherein the linker is linked to one or two DHA residue(s) via one or more ether bonds, and wherein the linker is linked to two DHA residues via two bonds independently selected from ester, carbamate and thiocarbamate. The THAD of the invention provide improved growth inhibition of cancer cells. The present invention also relates to improved methods of cancer therapy wherein a THAD is administered to a cancer patient. In embodiments, one or more THAD may be co-administered in a coordinated administration schedule. Advantages of the THAD and their use include, among others, improved dose-response and/or efficacy. The invention also relates to new dyes, their drug conjugates, and processes of making them.

Particulate constructs stabilized by amphiphilic copolymers and comprising at least one active coupled to a hydrophobic moiety provide sustained release of the active in both in vitro and in vivo environments.

The subject invention pertains to polyacrylate homopolymers produced from acrylolated drug monomers. The homopolymers can be produced in the form of nanoparticles. The nanoparticles comprising the homopolymers can be produced via a free radical-induced emulsion polymerization of the acrylolated drug monomers to produce an aqueous emulsion of uniformly sized nanoparticles. The homopolymers of the invention containing acrylolated antibiotic monomers can be active against Gram-positive and Gram-negative bacteria, such as Staphylococcus aureus and Escherichia coli. Accordingly, methods are provided of treating a disease, for example, an infection, by administering to a subject the homopolymers, homopolymeric nanoparticles, or emulsions containing homopolymeric nanoparticles of the invention.

The present invention generally relates to tumor homing statin derivatives (THSD) and their use for therapy, in particular cancer therapy. These THSD comprise three moieties: a statin moiety which comprises a dihydroxyheptanoic acid unit (DHHA) fixated by linkage into its open chain form, a heptamethine carbocyanine dye (HMCD) moiety, and a linker that conjugates the DHHA of the statin to the dye moiety. The linker is linked to the DHHA via an ester bond (ester-linked statin derivative or ELSD), or via an amide bond (amide-linked statin derivative or ALSD). Thus linked to the DHHA, the linker provides a relatively stable link either for essentially no hydrolysis/statin release after administration, or preferably for very slow hydrolysis and statin release, as is the case for the ELSD. Embodiments include methods to provide the desired THSD, in particular the ELSD, with the DHHA in its open chain form. The invention also relates to methods wherein one or more ELSD is administered to a patient in a therapeutically effective amount, and methods wherein an ELSD and an ALSD are co-administered in a coordinated administration schedule. Advantages of the THSD and their use include, among others, improved efficacy and dose-response, and decreased statin-associated side effects.

The present disclosure relates to novel antibacterial cell-penetrating peptides and derivatives, and methods to make and use the novel antibacterial cell-penetrating peptides and derivatives. The novel antibacterial cell-penetrating peptides of the present invention with shorter linker between a pyrrolidine ring and a guanidine group provide unexpectedly higher potency against a broader scope of bacterial.