Active Structured Learning for Cell Tracking: Algorithm, Framework, and Usability

Natural products represent an inexhaustible source of novel therapeutic agents. Their complex and constrained three-dimensional structures endow these molecules with exceptional biological properties, thereby giving them a major role in drug discovery programs. However, the search for new bioactive metabolites is hampered by the chemical complexity of the biological matrices in which they are found. The purification of single constituents from such matrices requires such a significant amount of work that it should be ideally performed only on molecules of high potential value (i.e., chemical novelty and biological activity). Recent bioinformatics approaches based on mass spectrometry metabolite profiling methods are beginning to address the complex task of compound identification within complex mixtures. However, in parallel to these developments, methods providing information on the bioactivity potential of natural products prior to their isolation are still lacking and are of key interest to target the isolation of valuable natural products only. In the present investigation, we propose an integrated analysis strategy for bioactive natural products prioritization. Our approach uses massive molecular networks embedding various informational layers (bioactivity and taxonomical data) to highlight potentially bioactive scaffolds within the chemical diversity of crude extracts collections. We exemplify this workflow by targeting the isolation of predicted active and nonactive metabolites from two botanical sources (Bocquillonia nervosa and Neoguillauminia cleopatra) against two biological targets (Wnt signaling pathway and chikungunya virus replication). Eventually, the detection and isolation processes of a daphnane diterpene orthoester and four 12-deoxyphorbols inhibiting the Wnt signaling pathway and exhibiting potent antiviral activities against the CHIKV virus are detailed. Combined with efficient metabolite annotation tools, this bioactive natural products prioritization pipeline proves to be efficient. Implementation of this approach in drug discovery programs based on natural extract screening should speed up and rationalize the isolation of bioactive natural products.

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Golgi-Resident Gαo Promotes Protrusive Membrane Dynamics

Solis

Bilousov

Koval

et al. 2017

Cell

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To form protrusions like neurites, cells must coordinate their induction and growth. The first requires cytoskeletal rearrangements at the plasma membrane (PM), the second requires directed material delivery from cell's insides. We find that the Gαo-subunit of heterotrimeric G proteins localizes dually to PM and Golgi across phyla and cell types. The PM pool of Gαo induces, and the Golgi pool feeds, the growing protrusions by stimulated trafficking. Golgi-residing KDELR binds and activates monomeric Gαo, atypically for G protein-coupled receptors that normally act on heterotrimeric G proteins. Through multidimensional screenings identifying > 250 Gαo interactors, we pinpoint several basic cellular activities, including vesicular trafficking, as being regulated by Gαo. We further find small Golgi-residing GTPases Rab1 and Rab3 as direct effectors of Gαo. This KDELR → Gαo → Rab1/3 signaling axis is conserved from insects to mammals and controls material delivery from Golgi to PM in various cells and tissues.

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Wnt3a stimulation elicits G-protein-coupled receptor properties of mammalian Frizzled proteins

Koval

Katanaev

2011

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Receptors of the Fz (Frizzled) family initiate Wnt ligand-dependent signalling controlling multiple steps in organism development and carcinogenesis. Fz proteins possess seven transmembrane domains, and their signalling depends on heterotrimeric G-proteins in various organisms; however, Fz proteins constitute a distinct group within the GPCR (G-protein-coupled receptor) superfamily, and Fz signalling can be G-protein-independent in some experimental setups, leading to concerns about the GPCR nature of these proteins. In the present study, we demonstrate that mammalian Fz proteins act as GPCRs on heterotrimeric G(o/i) proteins. Addition of the Wnt3a ligand to rat brain membranes or cultured cells elicits Fz-dependent guanine-nucleotide exchange on G(o/i) proteins. These responses were sensitive to a Wnt antagonist and to pertussis toxin, which decouples the G(o/i) proteins from their receptors through covalent modification. The results of the present study provide the long-awaited biochemical proof of the GPCR nature of Fz receptors.

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Double Suppression of the Gα Protein Activity by RGS Proteins

et al. 2014

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Regulator of G protein signaling (RGS) proteins accelerate GTP hydrolysis on G protein α subunits, restricting their activity downstream from G protein-coupled receptors. Here we identify Drosophila Double hit (Dhit) as a dual RGS regulator of Gαo. In addition to the conventional GTPase-activating action, Dhit possesses the guanine nucleotide dissociation inhibitor (GDI) activity, slowing the rate of GTP uptake by Gαo; both activities are mediated by the same RGS domain. These findings are recapitulated using homologous mammalian Gαo/i proteins and RGS19. Crystal structure and mutagenesis studies provide clues into the molecular mechanism for this unprecedented GDI activity. Physiologically, we confirm this activity in Drosophila asymmetric cell divisions and HEK293T cells. We show that the oncogenic Gαo mutant found in breast cancer escapes this GDI regulation. Our studies identify Dhit and its homologs as double-action regulators, inhibiting Gαo/i proteins both through suppression of their activation and acceleration of their inactivation through the single RGS domain.

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Anti-leprosy drug clofazimine inhibits growth of triple-negative breast cancer cells via inhibition of canonical Wnt signaling

Koval

Vlasov

Shichkova

et al. 2014

Biochemical Pharmacology

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Alexey Koval

Bioactive Natural Products Prioritization Using Massive Multi-informational Molecular Networks

Golgi-Resident Gαo Promotes Protrusive Membrane Dynamics

Wnt3a stimulation elicits G-protein-coupled receptor properties of mammalian Frizzled proteins

Double Suppression of the Gα Protein Activity by RGS Proteins

Anti-leprosy drug clofazimine inhibits growth of triple-negative breast cancer cells via inhibition of canonical Wnt signaling

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