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1.
Chembiochem ; 23(3): e202100574, 2022 02 04.
Artigo em Inglês | MEDLINE | ID: mdl-34850512

RESUMO

Indolactam alkaloids are activators of protein kinase C (PKC) and are of pharmacological interest for the treatment of pathologies involving PKC dysregulation. The marine cyanobacterial nonribosomal peptide synthetase (NRPS) pathway for lyngbyatoxin biosynthesis, which we previously expressed in E. coli, was studied for its amenability towards the biosynthesis of indolactam variants. Modification of culture conditions for our E. coli heterologous expression host and analysis of pathway products suggested the native lyngbyatoxin pathway NRPS does possess a degree of relaxed specificity. Site-directed mutagenesis of two positions within the adenylation domain (A-domain) substrate-binding pocket was performed, resulting in an alteration of substrate preference between valine, isoleucine, and leucine. We observed relative congruence of in vitro substrate activation by the LtxA NRPS to in vivo product formation. While there was a preference for isoleucine over leucine, the substitution of alternative tailoring domains may unveil the true in vivo effects of the mutations introduced herein.


Assuntos
Toxinas de Lyngbya/biossíntese , Peptídeo Sintases/metabolismo , Toxinas de Lyngbya/química , Estrutura Molecular , Mutagênese Sítio-Dirigida , Peptídeo Sintases/genética
2.
Chembiochem ; 18(24): 2376-2379, 2017 12 14.
Artigo em Inglês | MEDLINE | ID: mdl-29024253

RESUMO

The biosynthesis of the potent cyanobacterial hepatotoxin microcystin involves isopeptide bond formation through the carboxylic acid side chains of d-glutamate and ß-methyl d-aspartate. Analysis of the in vitro activation profiles of the two corresponding adenylation domains, McyE-A and McyB-A2 , either in a didomain or a tridomain context with the cognate thiolation domain and the upstream condensation domain revealed that substrate activation of both domains strictly depended on the presence of the condensation domains. We further identified two key amino acids in the binding pockets of both adenylation domains that could serve as a bioinformatic signature of isopeptide bond-forming modules incorporating d-glutamate or d-aspartate. Our findings further contribute to the understanding of the multifaceted role of condensation domains in nonribosomal peptide synthetase assembly lines.


Assuntos
Cianobactérias/metabolismo , Microcistinas/biossíntese , Biossíntese de Peptídeos Independentes de Ácido Nucleico , Monofosfato de Adenosina/química , Sítios de Ligação , Cianobactérias/química , Cianobactérias/enzimologia , Ácido D-Aspártico/química , Ácido Glutâmico/química , Domínios Proteicos
3.
Environ Microbiol ; 17(5): 1548-59, 2015 May.
Artigo em Inglês | MEDLINE | ID: mdl-25059440

RESUMO

The biological role of the widespread mycosporine-like amino acids (MAAs) in cyanobacteria is under debate. Here, we have constructed and characterized two mutants impaired in MAA biosynthesis in the bloom-forming cyanobacterium Microcystis aeruginosa PCC 7806. We could identify shinorine as the sole MAA type of the strain, which is exclusively located in the extracellular matrix. Bioinformatic studies as wells as polymerase chain reaction screening revealed that the ability to produce MAAs is sporadically distributed within the genus. Growth experiments and reactive oxygen species quantification with wild-type and mutant strains did not support a role of shinorine in protection against UV or other stress conditions in M. aeruginosa PCC 7806. The shinorine content per dry weight of cells as well as transcription of the mys gene cluster was not significantly elevated in response to UV-A, UV-B or any other stress condition tested. Remarkably, both mutants exhibited pronounced morphological changes compared with the wild type. We observed an increased accumulation and an enhanced hydrophobicity of the extracellular matrix. Our study suggests that MAAs in Microcystis play a negligible role in protection against UV radiation but might be a strain-specific trait involved in extracellular matrix formation and cell-cell interaction.


Assuntos
Cicloexilaminas/metabolismo , Matriz Extracelular/metabolismo , Glicina/análogos & derivados , Microcystis/metabolismo , Raios Ultravioleta , Aminoácidos/metabolismo , Glicina/biossíntese , Glicina/metabolismo , Microcystis/classificação , Microcystis/genética , Família Multigênica , Mutação/genética , Espécies Reativas de Oxigênio/metabolismo
4.
Angew Chem Int Ed Engl ; 53(14): 3735-8, 2014 Apr 01.
Artigo em Inglês | MEDLINE | ID: mdl-24591244

RESUMO

Understanding and controlling proteolysis is an important goal in therapeutic chemistry. Among the natural products specifically inhibiting proteases microviridins are particularly noteworthy. Microviridins are ribosomally produced and posttranslationally modified peptides that are processed into a unique, cagelike architecture. Here, we report a combined rational and random mutagenesis approach that provides fundamental insights into selectivity-conferring moieties of microviridins. The potent variant microviridin J was co-crystallized with trypsin, and for the first time the three-dimensional structure of microviridins was determined and the mode of inhibition revealed.


Assuntos
Peptídeos Cíclicos/química , Peptídeos/química , Inibidores de Proteases/química , Produtos Biológicos/química , Estrutura Molecular
5.
J Biol Chem ; 285(32): 24845-54, 2010 Aug 06.
Artigo em Inglês | MEDLINE | ID: mdl-20507987

RESUMO

Microvirin (MVN), a recently isolated lectin from the cyanobacterium Microcystis aeruginosa PCC7806, shares 33% identity with the potent anti-human immunodeficiency virus (HIV) protein cyanovirin-N (CV-N) isolated from Nostoc ellipsosporum, and both lectins bind to similar carbohydrate structures. MVN is able to inhibit infection by a wide variety of HIV-1 laboratory-adapted strains and clinical isolates of different tropisms and subtypes in peripheral blood mononuclear cells. MVN also inhibits syncytium formation between persistently HIV-1-infected T cells and uninfected CD4(+) T cells and inhibits DC-SIGN-mediated HIV-1 binding and transmission to CD4(+) T cells. Long term passaging of HIV-1 exposed to dose-escalating concentrations of MVN resulted in the selection of a mutant virus with four deleted high mannose-type glycans in the envelope gp120. The MVN-resistant virus was still highly sensitive to various other carbohydrate binding lectins (e.g. CV-N, HHA, GNA, and UDA) but not anymore to the carbohydrate-specific 2G12 monoclonal antibody. Importantly, MVN is more than 50-fold less cytotoxic than CV-N. Also in sharp contrast to CV-N, MVN did not increase the level of the activation markers CD25, CD69, and HLA-DR in CD4(+) T lymphocytes, and subsequently, MVN did not enhance viral replication in pretreated peripheral blood mononuclear cells. Therefore, MVN may qualify as a useful lectin for potential microbicidal use based on its broad and potent antiviral activity and virtual lack of any stimulatory properties and cellular toxicity.


Assuntos
Fármacos Anti-HIV/farmacologia , Proteínas de Bactérias/química , Proteínas de Bactérias/farmacologia , Linfócitos T CD4-Positivos/virologia , Proteínas de Transporte/farmacologia , HIV-1/metabolismo , Lectinas/química , Lectina de Ligação a Manose/química , Manose/química , Microcystis/metabolismo , Antígenos CD/biossíntese , Antígenos de Diferenciação de Linfócitos T/biossíntese , Linfócitos T CD4-Positivos/metabolismo , Separação Celular , Química Farmacêutica/métodos , Avaliação Pré-Clínica de Medicamentos , Citometria de Fluxo , Antígenos HLA-DR/metabolismo , Humanos , Subunidade alfa de Receptor de Interleucina-2/biossíntese , Lectinas Tipo C/biossíntese , Lectina de Ligação a Manose/farmacologia
6.
Beilstein J Org Chem ; 7: 1622-35, 2011.
Artigo em Inglês | MEDLINE | ID: mdl-22238540

RESUMO

Cyanobacteria are prolific producers of natural products. Investigations into the biochemistry responsible for the formation of these compounds have revealed fascinating mechanisms that are not, or only rarely, found in other microorganisms. In this article, we survey the biosynthetic pathways of cyanobacteria isolated from freshwater, marine and terrestrial habitats. We especially emphasize modular nonribosomal peptide synthetase (NRPS) and polyketide synthase (PKS) pathways and highlight the unique enzyme mechanisms that were elucidated or can be anticipated for the individual products. We further include ribosomal natural products and UV-absorbing pigments from cyanobacteria. Mechanistic insights obtained from the biochemical studies of cyanobacterial pathways can inspire the development of concepts for the design of bioactive compounds by synthetic-biology approaches in the future.

7.
Environ Microbiol ; 17(10): 3430-2, 2015 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-26201437
8.
J Bacteriol ; 190(8): 2871-9, 2008 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-18281396

RESUMO

Microcystins are the most common cyanobacterial toxins found in freshwater lakes and reservoirs throughout the world. They are frequently produced by the unicellular, colonial cyanobacterium Microcystis aeruginosa; however, the role of the peptide for the producing organism is poorly understood. Differences in the cellular aggregation of M. aeruginosa PCC 7806 and a microcystin-deficient Delta mcyB mutant guided the discovery of a surface-exposed protein that shows increased abundance in PCC 7806 mutants deficient in microcystin production compared to the abundance of this protein in the wild type. Mass spectrometric and immunoblot analyses revealed that the protein, designated microcystin-related protein C (MrpC), is posttranslationally glycosylated, suggesting that it may be a potential target of a putative O-glycosyltransferase of the SPINDLY family encoded downstream of the mrpC gene. Immunofluorescence microscopy detected MrpC at the cell surface, suggesting an involvement of the protein in cellular interactions in strain PCC 7806. Further analyses of field samples of Microcystis demonstrated a strain-specific occurrence of MrpC possibly associated with distinct Microcystis colony types. Our results support the implication of microcystin in the colony specificity of and colony formation by Microcystis.


Assuntos
Adesinas Bacterianas/metabolismo , Aderência Bacteriana/fisiologia , Glicoproteínas/metabolismo , Microcystis/fisiologia , Adesinas Bacterianas/química , Aderência Bacteriana/genética , Western Blotting , Membrana Celular/química , Deleção de Genes , Glicoproteínas/química , Glicosilação , Immunoblotting , Espectrometria de Massas , Microcistinas/genética , Microcistinas/metabolismo , Microcystis/genética , Microscopia de Fluorescência , Família Multigênica , Homologia de Sequência de Aminoácidos
9.
BMC Genomics ; 9: 274, 2008 Jun 05.
Artigo em Inglês | MEDLINE | ID: mdl-18534010

RESUMO

BACKGROUND: The colonial cyanobacterium Microcystis proliferates in a wide range of freshwater ecosystems and is exposed to changing environmental factors during its life cycle. Microcystis blooms are often toxic, potentially fatal to animals and humans, and may cause environmental problems. There has been little investigation of the genomics of these cyanobacteria. RESULTS: Deciphering the 5,172,804 bp sequence of Microcystis aeruginosa PCC 7806 has revealed the high plasticity of its genome: 11.7% DNA repeats containing more than 1,000 bases, 6.8% putative transposases and 21 putative restriction enzymes. Compared to the genomes of other cyanobacterial lineages, strain PCC 7806 contains a large number of atypical genes that may have been acquired by lateral transfers. Metabolic pathways, such as fermentation and a methionine salvage pathway, have been identified, as have genes for programmed cell death that may be related to the rapid disappearance of Microcystis blooms in nature. Analysis of the PCC 7806 genome also reveals striking novel biosynthetic features that might help to elucidate the ecological impact of secondary metabolites and lead to the discovery of novel metabolites for new biotechnological applications. M. aeruginosa and other large cyanobacterial genomes exhibit a rapid loss of synteny in contrast to other microbial genomes. CONCLUSION: Microcystis aeruginosa PCC 7806 appears to have adopted an evolutionary strategy relying on unusual genome plasticity to adapt to eutrophic freshwater ecosystems, a property shared by another strain of M. aeruginosa (NIES-843). Comparisons of the genomes of PCC 7806 and other cyanobacterial strains indicate that a similar strategy may have also been used by the marine strain Crocosphaera watsonii WH8501 to adapt to other ecological niches, such as oligotrophic open oceans.


Assuntos
Genoma Bacteriano , Microcystis/genética , Animais , Enzimas de Restrição-Modificação do DNA/genética , DNA Bacteriano/genética , DNA Intergênico/genética , DNA Ribossômico/genética , Ecossistema , Evolução Molecular , Água Doce/microbiologia , Humanos , Microcystis/classificação , Microcystis/patogenicidade , Microcystis/fisiologia , Dados de Sequência Molecular , Família Multigênica , Filogenia , Sequências Repetitivas de Ácido Nucleico , Especificidade da Espécie
10.
Cell Chem Biol ; 23(4): 462-71, 2016 04 21.
Artigo em Inglês | MEDLINE | ID: mdl-27105282

RESUMO

The cyanobacterial hepatotoxin microcystin is assembled at a non-ribosomal peptide synthetase (NRPS) complex. The enormous structural diversity of this peptide, which is also found in closely related strains, is the result of frequent recombination events and point mutations. Here, we have compared the in vitro activation profiles of related monospecific and multispecific modules that either strictly incorporate leucine or arginine or incorporate chemically diverse amino acids in parallel into microcystin. By analyzing di- and tri-domain proteins we have dissected the role of adenylation and condensation domains for substrate specificity. We have further analyzed the role of subdomains and provide evidence for an extended gatekeeping function for the condensation domains of multispecific modules. By reproducing natural point mutations, we could convert a monospecific module into a multispecific module. Our findings may inspire novel synthetic biology approaches and demonstrate how recombination platforms of NRPSs have developed in nature.


Assuntos
Microcistinas/metabolismo , Microcystis/enzimologia , Peptídeo Sintases/metabolismo , Microcistinas/química , Conformação Molecular , Peptídeo Sintases/genética
11.
Life (Basel) ; 5(1): 164-80, 2015 Jan 12.
Artigo em Inglês | MEDLINE | ID: mdl-25587674

RESUMO

The cell surface of cyanobacteria is covered with glycans that confer versatility and adaptability to a multitude of environmental factors. The complex carbohydrates act as barriers against different types of stress and play a role in intra- as well as inter-species interactions. In this review, we summarize the current knowledge of the chemical composition, biosynthesis and biological function of exo- and lipo-polysaccharides from cyanobacteria and give an overview of sugar-binding lectins characterized from cyanobacteria. We discuss similarities with well-studied enterobacterial systems and highlight the unique features of cyanobacteria. We pay special attention to colony formation and EPS biosynthesis in the bloom-forming cyanobacterium, Microcystis aeruginosa.

12.
PLoS One ; 6(3): e17615, 2011 Mar 18.
Artigo em Inglês | MEDLINE | ID: mdl-21445264

RESUMO

Microcystins are cyanobacterial toxins that represent a serious threat to drinking water and recreational lakes worldwide. Here, we show that microcystin fulfils an important function within cells of its natural producer Microcystis. The microcystin deficient mutant ΔmcyB showed significant changes in the accumulation of proteins, including several enzymes of the Calvin cycle, phycobiliproteins and two NADPH-dependent reductases. We have discovered that microcystin binds to a number of these proteins in vivo and that the binding is strongly enhanced under high light and oxidative stress conditions. The nature of this binding was studied using extracts of a microcystin-deficient mutant in vitro. The data obtained provided clear evidence for a covalent interaction of the toxin with cysteine residues of proteins. A detailed investigation of one of the binding partners, the large subunit of RubisCO showed a lower susceptibility to proteases in the presence of microcystin in the wild type. Finally, the mutant defective in microcystin production exhibited a clearly increased sensitivity under high light conditions and after hydrogen peroxide treatment. Taken together, our data suggest a protein-modulating role for microcystin within the producing cell, which represents a new addition to the catalogue of functions that have been discussed for microbial secondary metabolites.


Assuntos
Microcistinas/metabolismo , Microcystis/metabolismo , Estresse Oxidativo , Luz , Microcystis/enzimologia , Oxirredução , Ligação Proteica , Ribulose-Bifosfato Carboxilase/metabolismo
13.
Antiviral Res ; 90(3): 200-4, 2011 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-21501631

RESUMO

Tenofovir, a well-known and highly prescribed anti-HIV-1 drug for the treatment of HIV/AIDS infections, has recently also shown its effectiveness as a potential microbicide drug in the prevention of HIV transmission. Here, we evaluated the combination of tenofovir with various members of the class of carbohydrate-binding agents (CBAs) targeting the glycans on the viral envelope gp120 for their anti-HIV efficacy. The tenofovir/CBA combinations predominantly showed synergistic antiviral activity using the median effect principle. These findings illustrate that combination of tenofovir with CBAs may increase the antiviral potency of the individual drugs and reducing the risk on potential side-effects.


Assuntos
Adenina/análogos & derivados , Fármacos Anti-HIV/farmacologia , Sinergismo Farmacológico , Proteína gp120 do Envelope de HIV/antagonistas & inibidores , Infecções por HIV/virologia , HIV-1/efeitos dos fármacos , Organofosfonatos/farmacologia , Adenina/farmacologia , Linhagem Celular , Proteína gp120 do Envelope de HIV/metabolismo , Infecções por HIV/tratamento farmacológico , HIV-1/classificação , HIV-1/metabolismo , Humanos , Tenofovir
14.
Mol Microbiol ; 59(3): 893-906, 2006 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-16420359

RESUMO

Microcystin, a hepatotoxin that represents a serious health risk for humans and livestock, is produced by the bloom-forming cyanobacterium Microcystis aeruginosa in freshwater bodies worldwide. Here we describe the discovery of a lectin, microvirin (MVN), in M. aeruginosa PCC7806 that shares 33% identity with the potent anti-HIV protein cyanovirin-N from Nostoc ellipsosporum. Carbohydrate microarrays were employed to demonstrate the high specificity of the protein for high-mannose structures containing alpha(1-->2) linked mannose residues. Lectin binding analyses and phenotypic characterizations of MVN-deficient mutants suggest that MVN is involved in cell-cell recognition and cell-cell attachment of Microcystis. A binding partner of MVN was identified in the lipopolysaccharide fraction of M. aeruginosa PCC7806. MVN is differentially expressed in mutants lacking the hepatotoxin microcystin. Additionally, MVN-deficient mutants contain much lower amounts of microcystin than the wild-type cells. We discuss a possible functional correlation between microcystin and the lectin and possible implications on Microcystis morphotype formation. This study provides the first experimental evidence that microcystins may have an impact on Microcystis colony formation that is highly important for the competitive advantage of Microcystis over other phytoplankton species.


Assuntos
Proteínas de Bactérias/metabolismo , Adesão Celular , Lectina de Ligação a Manose/metabolismo , Microcystis/patogenicidade , Peptídeos Cíclicos/metabolismo , Sequência de Aminoácidos , Proteínas de Bactérias/genética , Proteínas de Transporte/genética , Proteínas de Transporte/metabolismo , Manose/metabolismo , Lectina de Ligação a Manose/genética , Microcistinas , Microcystis/genética , Dados de Sequência Molecular , Mutação , Peptídeos Cíclicos/genética
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