Scaling up for success: from bioactive natural products to new medicines.

Covering 1986 to presentNatural product drug discovery at Novartis has a long and successful history of delivering life saving medicines to millions of patients. In this viewpoint, we are presenting the tools we use and challenges we face as we advance natural products from early research into development and beyond. We are leveraging our collection of 90 000 microbial strains and 20 000 isolated natural products to find new medications in an interdisciplinary approach that requires expertise in microbiology, computational biology, synthetic biology, chemistry, and process development.

Condensation Domain Editing of the FR900359 Assembly Line Yields a Novel Analog Amenable to Late-Stage Functionalization.

The natural product FR900359 (FR) has generated significant attention lately, due to its characteristics as potent and selective inhibitor of G mediated signal transduction of associated G protein-coupled receptors (GPCRs). This makes FR both a widely used pharmacological tool compound and a lead molecule for targeted cancer therapy. The exploration of structure-activity-relationship (SAR) of the scaffold by total synthesis has been complicated by its structural complexity and its incompatibility with standard approaches of solid-phase peptide synthesis.

Generation of Bioactivity-Tailored FK506/FK520 Analogs by CRISPR Editing in Streptomyces tsukubaensis.

For a potential application of FK506 in the treatment of acute kidney failure only the FKBP12 binding capability of the compound is required, while the immunosuppressive activity via calcineurin binding is considered as a likely risk to the patients. The methoxy groups at C13 and C15 are thought to have significant influence on the immunosuppressive activity of the molecule. Consequently, FK506 analogs with different functionalities at C13 and C15 were generated by targeted CRISPR editing of the AT domains in module 7 and 8 of the biosynthetic assembly line in Streptomyces tsukubaensis.

Valhidepsin Lipopeptides from : Structures, Biosynthesis, and Coregulation with FR900359 Production.

Microbial secondary metabolites continue to provide a valuable source of both chemical matter and inspiration for drug discovery in a broad range of therapeutic areas. Beyond this, the corresponding microorganisms represent a sustainable modality for biotechnological production of structurally complex molecules at the quantities required for drug development or even commercial manufacturing. , which has recently been reported as a producer of the pharmacologically highly important G inhibitor FR900359 (FR), represents such an example.

Promoter-Driven Overexpression in Chromobacterium vaccinii Facilitates Access to FR900359 and Yields Novel Low Abundance Analogs.

Access to the cyclic depsipeptide FR900359 (FR), a selective G protein inhibitor of high pharmacological interest and a potential lead molecule for targeted therapy of cancers with oncogenic GNAQ or GNA11 mutations (encoding G and G respectively), has been challenging ever since its initial discovery more than three decades ago. The recent discovery of Chromobacterium vaccinii as a cultivable FR producer enables the development of approaches leading to a high-yielding, scalable and sustainable biotechnological process for production of FR, thereby removing this bottleneck. Here we characterize different promoters in exchange of the native promoter of the FR assembly line, resulting in an overexpression mutant with significantly increased production of FR.

Deliberations on Natural Products and Future Directions in the Pharmaceutical Industry.

Natural Products (NPs) are molecular' special equipment ' that impart survival benefits on their producers in nature. Due to their evolved functions to modulate biology these privileged metabolites are substantially represented in the drug market and are continuing to contribute to the discovery of innovative medicines such as the recently approved semi-synthetic derivative of the bacterial alkaloid staurosporin in oncology indications. The innovation of low molecular weight compounds in modern drug discovery is built on rapid progress in chemical, molecular biological, pharmacological and data sciences, which together provide a rich understanding of disease-driving molecular interactions and how to modulate them.

Nannocystin A: an Elongation Factor 1 Inhibitor from Myxobacteria with Differential Anti-Cancer Properties.

Cultivation of myxobacteria of the Nannocystis genus led to the isolation and structure elucidation of a class of novel cyclic lactone inhibitors of elongation factor 1. Whole genome sequence analysis and annotation enabled identification of the putative biosynthetic cluster and synthesis process. In biological assays the compounds displayed anti-fungal and cytotoxic activity.

Insights into the complex biosynthesis of the leupyrrins in Sorangium cellulosum So ce690.

The anti-fungal leupyrrins are secondary metabolites produced by several strains of the myxobacterium Sorangium cellulosum. These intriguing compounds incorporate an atypically substituted γ-butyrolactone ring, as well as pyrrole and oxazolinone functionalities, which are located within an unusual asymmetrical macrodiolide. Previous feeding studies revealed that this novel structure arises from the homologation of four distinct structural units, nonribosomally-derived peptide, polyketide, isoprenoid and a dicarboxylic acid, coupled with modification of the various building blocks.

An unusual thioesterase promotes isochromanone ring formation in ajudazol biosynthesis.

The ajudazols are antifungal secondary metabolites produced by a hybrid polyketide synthase (PKS)-nonribosomal peptide synthetase (NRPS) multienzyme "assembly line" in the myxobacterium Chondromyces crocatus Cm c5. The most striking structural feature of these compounds is an isochromanone ring system; such an aromatic moiety is only known from two other complex polyketides, the electron transport inhibitor stigmatellin and the polyether lasalocid. The cyclization and aromatization reactions in the stigmatellin pathway are presumed to be catalyzed by a cyclase domain located at the end of the PKS, while the origin of the lasalocid benzenoid ring remains obscure.

Biosynthesis of thuggacins in myxobacteria: comparative cluster analysis reveals basis for natural product structural diversity.

The thuggacins are macrolide antibiotics that are active against Mycobacterium tuberculosis, the causative agent of tuberculosis. Distinct variants of these structures are produced by the myxobacteria Sorangium cellulosum So ce895 and Chondromyces crocatus Cm c5, which differ in side chain structure and modification by hydroxylation. We report here a comparative analysis of the biosynthetic gene clusters in these strains, which reveals the mechanistic basis for this architectural diversity.