Vitamin B6: A Long Known Compound of Surprising Complexity

Mooney, Sutton; Leuendorf, Jan-Erik; Hendrickson, Christopher L.; Hellmann, Hanjo

doi:10.3390/molecules14010329

Cited by 231 publications

(180 citation statements)

References 143 publications

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“…Our results show that E. pusillum has multiple mechanisms to deal with oxidative stress. Vitamin B6 has three forms (pyridoxine, pyridoxal, and pyridoxamine) and is an enzymatic cofactor participating in many biochemical reactions [53]. Recent research showed that vitamin B6 played a critical role in resistance to oxidative stress.…”

Section: The Common Drought-resistant Mechanisms In E Pusillummentioning

confidence: 99%

Comparative transcriptome analysis of the lichen-forming fungus Endocarpon pusillum elucidates its drought adaptation mechanisms

Wang

Zhang

Zhou

et al. 2014

Sci. China Life Sci.

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The lichen-forming fungus was isolated from the desert lichen Endocarpon pusillum that is extremely drought resistant. To understand the molecular mechanisms of drought resistance in the fungus, we employed RNA-seq and quantitative real-time PCR to compare and characterize the differentially expressed genes in pure culture at two different water levels and with that in desiccated lichen. The comparative transcriptome analysis indicated that a total of 1781 genes were differentially expressed between samples cultured under normal and PEG-induced drought stress conditions. Similar to those in drought resistance plants and non-lichenized fungi, the common drought-resistant mechanisms were differentially expressed in E. pusillum. However, the expression change of genes involved in osmotic regulation in E. pusillum is different, which might be the evidence for the feature of drought adaptation. Interestingly, different from other organisms, some genes involved in drought adaption mechanisms showed significantly different expression patterns between the presence and absence of drought stress in E. pusillum. The expression of 23 candidate stress responsive genes was further confirmed by quantitative real-time PCR using dehydrated E. pusillum lichen thalli. This study provides a valuable resource for future research on lichen-forming fungi and shall facilitate future functional studies of the specific genes related to drought resistance. lichen, mycobiont, dehydration, drought adaption, drought resistant Citation:Wang YY, Zhang XY, Zhou QM, Zhang XL, Wei JC. Comparative transcriptome analysis of the lichen-forming fungus Endocarpon pusillum elucidates its drought adaptation mechanisms.

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Section: The Common Drought-resistant Mechanisms In E Pusillummentioning

confidence: 99%

Comparative transcriptome analysis of the lichen-forming fungus Endocarpon pusillum elucidates its drought adaptation mechanisms

Wang

Zhang

Zhou

et al. 2014

Sci. China Life Sci.

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“…[37][38][39] Pyridoxal (PL) and its 5′ phosphorylated derivative are active forms of vitamin B6 that play a critical role in cellular metabolism and stress response. 40,41 Recent studies have highlighted the importance of the protective role of vitamin B6 in carcinogenesis, especially colon carcinogenesis, by reducing cell proliferation, oxidative stress, NO production, and angiogenesis. 42,43 Our previous study revealed that after internalization, biotin-PLconjugated PAMAM G3 dendrimers had lower cytotoxicity than the nonconjugated forms of the dendrimer in both normal human fibroblasts (BJ) and squamous epithelial carcinoma (SCC-15) cancer cells.…”

Section: Introductionmentioning

confidence: 99%

Different patterns of nuclear and mitochondrial penetration by the G3 PAMAM dendrimer and its biotin–pyridoxal bioconjugate BC-PAMAM in normal and cancer cells in vitro

Uram¹,

Szuster²,

Filipowicz³

et al. 2015

IJN

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The intracellular localization and colocalization of a fluorescently labeled G3 amine-terminated cationic polyamidoamine (PAMAM) dendrimer and its biotin–pyridoxal (BC-PAMAM) bioconjugate were investigated in a concentration-dependent manner in normal human fibroblast (BJ) and squamous epithelial carcinoma (SCC-15) cell lines. After 24 hours treatment, both cell lines revealed different patterns of intracellular dendrimer accumulation depending on their cytotoxic effects. Cancer cells exhibited much higher (20-fold) tolerance for native PAMAM treatment than fibroblasts, whereas BC-PAMAM was significantly toxic only for fibroblasts at 50 µM concentration. Fibroblasts accumulated the native and bioconjugated dendrimers in a concentration-dependent manner at nontoxic range of concentration, with significantly lower bioconjugate loading. After reaching the cytotoxicity level, fluorescein isothiocyanate-PAMAM accumulation remains at high, comparable level. In cancer cells, native PAMAM loading at higher, but not cytotoxic concentrations, was kept at constant level with a sharp increase at toxic concentration. Mander’s coefficient calculated for fibroblasts and cancer cells confirmed more efficient native PAMAM penetration as compared to BC-PAMAM. Significant differences in nuclear dendrimer penetration were observed for both cell lines. In cancer cells, PAMAM signals amounted to ~25%–35% of the total nuclei area at all investigated concentrations, with lower level (15%–25%) observed for BC-PAMAM. In fibroblasts, the dendrimer nuclear signal amounted to 15% at nontoxic and up to 70% at toxic concentrations, whereas BC-PAMAM remained at a lower concentration-dependent level (0.3%–20%). Mitochondrial localization of PAMAM and BC-PAMAM revealed similar patterns in both cell lines, depending on the extracellular dendrimer concentration, and presented significantly lower signals from BC-PAMAM, which correlated well with the cytotoxicity.

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“…Vitamin B 6 (or B 6 vitamer) is one of the essential vitamin compounds involved in many aspects of metabolism in all living organisms (21,22). Vitamin B 6 is the generic name encompassing six biologically interconvertible compounds: pyridoxal (PL), pyridoxine (PN), pyridoxamine (PM), and the phosphorylated forms pyridoxal 5=-phosphate (PLP), pyridoxine 5=-phosphate (PNP), and pyridoxamine 5=-phosphate (PMP) (http://www.chem.qmul.ac.uk/iupac/misc/B6 .html).…”

Section: Discussionmentioning

confidence: 99%

Involvement of Vitamin B₆Biosynthesis Pathways in the Insecticidal Activity of Photorhabdus luminescens

Sato

Yoshiga

Hasegawa

2016

Appl Environ Microbiol

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Photorhabdus luminescens is a Gram-negative entomopathogenic bacterium which symbiotically associates with the entomopathogenic nematode Heterorhabditis bacteriophora. P. luminescens is highly virulent to many insects and nonsymbiotic nematodes, including Caenorhabditis elegans. To understand the virulence mechanisms of P. luminescens, we obtained virulence-deficient and -attenuated mutants against C. elegans through a transposon-mutagenized library. From the genetic screening, we identified the pdxB gene, encoding erythronate-4-phosphate dehydrogenase, as required for de novo vitamin B 6 biosynthesis. Mutation in pdxB caused growth deficiency of P. luminescens in nutrient-poor medium, which was restored under nutrient-rich conditions or by supplementation with pyridoxal 5=-phosphate (PLP), an active form of vitamin B 6 . Supplementation with three other B 6 vitamers (pyridoxal, pyridoxine, and pyridoxamine) also restored the growth of the pdxB mutant, suggesting the existence of a salvage pathway for vitamin B 6 biosynthesis in P. luminescens. Moreover, supplementation with PLP restored the virulence-deficient phenotype against C. elegans. Combining these results with the fact that pdxB mutation also caused attenuation of insecticidal activity, we concluded that the production of appropriate amounts of vitamin B 6 is critical for P. luminescens pathogenicity. IMPORTANCEThe Gram-negative entomopathogenic bacterium Photorhabdus luminescens symbiotically associates with the entomopathogenic nematode Heterorhabditis bacteriophora. P. luminescens is highly virulent to many insects and nonsymbiotic nematodes, including Caenorhabditis elegans. We have obtained several virulence-deficient and -attenuated P. luminescens mutants against C. elegans through genetic screening. From the genetic analysis, we present the vitamin B 6 biosynthetic pathways in P. luminescens that are important for its insecticidal activity. Mutation in pdxB, encoding erythronate-4-phosphate dehydrogenase and required for the de novo vitamin B 6 biosynthesis pathway, caused virulence deficiency against C. elegans and growth deficiency of P. luminescens in nutrient-poor medium. Because such phenotypes were restored under nutrient-rich conditions or by supplementation with B 6 vitamers, we showed the presence of the two vitamin B 6 synthetic pathways (de novo and salvage) in P. luminescens and also showed that the ability to produce an appropriate amount of vitamin B 6 is critical for P. luminescens pathogenicity.

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Vitamin B6: A Long Known Compound of Surprising Complexity

Cited by 231 publications

References 143 publications

Comparative transcriptome analysis of the lichen-forming fungus Endocarpon pusillum elucidates its drought adaptation mechanisms

Comparative transcriptome analysis of the lichen-forming fungus Endocarpon pusillum elucidates its drought adaptation mechanisms

Different patterns of nuclear and mitochondrial penetration by the G3 PAMAM dendrimer and its biotin–pyridoxal bioconjugate BC-PAMAM in normal and cancer cells in vitro

Involvement of Vitamin B₆Biosynthesis Pathways in the Insecticidal Activity of Photorhabdus luminescens

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Vitamin B6: A Long Known Compound of Surprising Complexity

Cited by 231 publications

References 143 publications

Comparative transcriptome analysis of the lichen-forming fungus Endocarpon pusillum elucidates its drought adaptation mechanisms

Comparative transcriptome analysis of the lichen-forming fungus Endocarpon pusillum elucidates its drought adaptation mechanisms

Different patterns of nuclear and mitochondrial penetration by the G3 PAMAM dendrimer and its biotin&ndash;pyridoxal bioconjugate BC-PAMAM in normal and cancer cells in vitro

Involvement of Vitamin B6Biosynthesis Pathways in the Insecticidal Activity of Photorhabdus luminescens

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Different patterns of nuclear and mitochondrial penetration by the G3 PAMAM dendrimer and its biotin–pyridoxal bioconjugate BC-PAMAM in normal and cancer cells in vitro

Involvement of Vitamin B₆Biosynthesis Pathways in the Insecticidal Activity of Photorhabdus luminescens