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1.
Nat Chem Biol ; 14(2): 179-185, 2018 02.
Artigo em Inglês | MEDLINE | ID: mdl-29291350

RESUMO

Chemistry drives many biological interactions between the microbiota and host animals, yet it is often challenging to identify the chemicals involved. This poses a problem, as such small molecules are excellent sources of potential pharmaceuticals, pretested by nature for animal compatibility. We discovered anti-HIV compounds from small, marine tunicates from the Eastern Fields of Papua New Guinea. Tunicates are a reservoir for new bioactive chemicals, yet their small size often impedes identification or even detection of the chemicals within. We solved this problem by combining chemistry, metagenomics, and synthetic biology to directly identify and synthesize the natural products. We show that these anti-HIV compounds, the divamides, are a novel family of lanthipeptides produced by symbiotic bacteria living in the tunicate. Neighboring animal colonies contain structurally related divamides that differ starkly in their biological properties, suggesting a role for biosynthetic plasticity in a native context wherein biological interactions take place.


Assuntos
Fármacos Anti-HIV/farmacologia , Produtos Biológicos/farmacologia , Descoberta de Drogas , Infecções por HIV/tratamento farmacológico , Microbiota , Simbiose , Animais , Bactérias , DNA/análise , Avaliação Pré-Clínica de Medicamentos , Genômica , Humanos , Lisinoalanina/química , Metagenoma , Metagenômica , Família Multigênica , Peptídeos/farmacologia , Relação Estrutura-Atividade , Biologia Sintética , Linfócitos T/efeitos dos fármacos , Urocordados
2.
Proc Natl Acad Sci U S A ; 110(47): 18880-5, 2013 Nov 19.
Artigo em Inglês | MEDLINE | ID: mdl-24191039

RESUMO

Two merotriterpenoid hydroquinone sulfates designated adociasulfate-13 (1) and adociasulfate-14 (2) were purified from Cladocroce aculeata (Chalinidae) along with adociasulfate-8. All three compounds were found to inhibit microtubule-stimulated ATPase activity of kinesin at 15 µM by blocking both the binding of microtubules and the processive motion of kinesin along microtubules. These findings directly show that substitution of the 5'-sulfate in 1 for a glycolic acid moiety in 2 maintains kinesin inhibition. Nomarski imaging and bead diffusion assays in the presence of adociasulfates showed no signs of either free-floating or bead-bound adociasulfate aggregates. Single-molecule biophysical experiments also suggest that inhibition of kinesin activity does not involve adociasulfate aggregation. Furthermore, both mitotic and nonmitotic kinesins are inhibited by adociasulfates to a significantly different extent. We also report evidence that microtubule binding of nonkinesin microtubule binding domains may be affected by adociasulfates.


Assuntos
Descoberta de Drogas/tendências , Hidroquinonas/farmacologia , Cinesinas/antagonistas & inibidores , Poríferos/química , Ésteres do Ácido Sulfúrico/farmacologia , Triterpenos/farmacologia , Animais , Biofísica , Permeabilidade da Membrana Celular/fisiologia , Descoberta de Drogas/métodos , Humanos , Hidroquinonas/metabolismo , Estrutura Molecular , Ligação Proteica , Espectrofotometria , Ésteres do Ácido Sulfúrico/metabolismo , Triterpenos/metabolismo
3.
J Nat Prod ; 77(5): 1224-30, 2014 May 23.
Artigo em Inglês | MEDLINE | ID: mdl-24786728

RESUMO

The griseorhodins belong to a family of extensively modified aromatic polyketides that exhibit activities such as inhibition of HIV reverse transcriptase and human telomerase. The vast structural diversity of this group of polyketides is largely introduced by enzymatic oxidations, which can significantly influence the bioactivity profile. Four new compounds, griseorhodins D-F, were isolated from a griseorhodin producer, Streptomyces sp. CN48+, based upon their enhancement of calcium uptake in a mouse dorsal root ganglion primary cell culture assay. Two of these compounds, griseorhodins D1 and D2, were shown to be identical to the major, previously uncharacterized products of a grhM mutant in an earlier griseorhodin biosynthesis study. Their structures enabled the establishment of a more complete hypothesis for the biosynthesis of griseorhodins and related compounds. The other two compounds, griseorhodins E and F, represent new products of post-polyketide synthase tailoring in griseorhodin biosynthesis and showed significant binding activity in a human dopamine active transporter assay.


Assuntos
Naftoquinonas/isolamento & purificação , Naftoquinonas/farmacologia , Policetídeos/isolamento & purificação , Policetídeos/farmacologia , Streptomyces/química , Animais , Agonistas de Dopamina/química , Agonistas de Dopamina/isolamento & purificação , Humanos , Camundongos , Estrutura Molecular , Complexos Multienzimáticos/metabolismo , Família Multigênica , Naftoquinonas/química , Ressonância Magnética Nuclear Biomolecular , Filipinas , Policetídeo Sintases/metabolismo , Policetídeos/química , Streptomyces/genética , Telomerase/antagonistas & inibidores
4.
J Phys Chem B ; 119(44): 14033-44, 2015 Nov 05.
Artigo em Inglês | MEDLINE | ID: mdl-26435315

RESUMO

Bacterial spores can survive for long periods without nutrients and in harsh environmental conditions. This survival is influenced by the structure of the spore, the presence of protective compounds, and water retention. These compounds, and the physical state of water in particular, allow some species of bacterial spores to survive sterilization schemes with hydrogen peroxide and UV light. The chemical nature of the spore core and its water has been a subject of some contention and the chemical environment of the water impacts resistance paradigms. Either the spore has a glassy core, where water is immobilized along with other core components, or the core is gel-like with mobile water diffusion. These properties affect the movement of peroxide and radical species, and hence resistance. Deuterium solid-state NMR experiments are useful for examining the nature of the water inside the spore. Previous work in our lab with spores of Bacillus subtilis indicate that, for spores, the core water is in a more immobilized state than expected for the gel-like core theory, suggesting a glassy core environment. Here, we report deuterium solid-state NMR observations of the water within UV- and peroxide-resistant spores from Bacillus pumilus SAFR-032. Variable-temperature NMR experiments indicate no change in the line shape after heating to 50 °C, but an overall decrease in signal after heating to 100 °C. These results show glass-like core dynamics within B. pumilus SAFR-032 that may be the potential source of its known UV-resistance properties. The observed NMR traits can be attributed to the presence of an exosporium containing additional labile deuterons that can aid in the deactivation of sterilizing agents.


Assuntos
Bacillus/efeitos dos fármacos , Bacillus/efeitos da radiação , Peróxido de Hidrogênio/farmacologia , Esporos Bacterianos/efeitos dos fármacos , Esporos Bacterianos/efeitos da radiação , Esterilização , Raios Ultravioleta , Água/química , Bacillus/fisiologia , Ressonância Magnética Nuclear Biomolecular
5.
J Phys Chem B ; 118(30): 8945-55, 2014 Jul 31.
Artigo em Inglês | MEDLINE | ID: mdl-24950158

RESUMO

Dormant bacterial spores are able to survive long periods of time without nutrients, withstand harsh environmental conditions, and germinate into metabolically active bacteria when conditions are favorable. Numerous factors influence this hardiness, including the spore structure and the presence of compounds to protect DNA from damage. It is known that the water content of the spore core plays a role in resistance to degradation, but the exact state of water inside the core is a subject of discussion. Two main theories present themselves: either the water in the spore core is mostly immobile and the core and its components are in a glassy state, or the core is a gel with mobile water around components which themselves have limited mobility. Using deuterium solid-state NMR experiments, we examine the nature of the water in the spore core. Our data show the presence of unbound water, bound water, and deuterated biomolecules that also contain labile deuterons. Deuterium-hydrogen exchange experiments show that most of these deuterons are inaccessible by external water. We believe that these unreachable deuterons are in a chemical bonding state that prevents exchange. Variable-temperature NMR results suggest that the spore core is more rigid than would be expected for a gel-like state. However, our rigid core interpretation may only apply to dried spores whereas a gel core may exist in aqueous suspension. Nonetheless, the gel core, if present, is inaccessible to external water.


Assuntos
Esporos Bacterianos/química , Água/química , Animais , Bacillus subtilis , Bovinos , Deutério/química , Hidrogênio/química , Espectroscopia de Ressonância Magnética/métodos , Soroalbumina Bovina/química , Temperatura
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