Multi-Method Molecular Characterisation of Human Dust-Mite-associated Allergic Asthma

Whittle, Emma; Leonard, Martin O.; Gant, Timothy W.; Tonge, Daniel

doi:10.1038/s41598-019-45257-1

Cited by 6 publications

(1 citation statement)

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“…Blood is responsible for the transport of microbial constituents, particularly LPS and bacterial amyloid curli, from the gut to the brain. Those could disrupt the blood-brain barrier and initiate aberrant protein aggregation within the brain parenchyma, leading to neuroinflammation [82]. Blood dysbiosis of patients with untreated major depressive episodes might be characterized by a decline in Fusobacteria and Candidatus Saccharibacteria at the phyla level as well as an increase in Janthinobacterium and a reduction in Neisseria at the genus level (Table 5) [64].…”

Section: Neurological Disorders and Profiles Of Blood Dysbiosismentioning

confidence: 99%

Human Blood Bacteriome: Eubiotic and Dysbiotic States in Health and Diseases

Suparan

Sriwichaiin

Chattipakorn

2022

Cells

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The human gut microbiome is acknowledged as being associated with homeostasis and the pathogenesis of several diseases. Conventional culture techniques are limited in that they cannot culture the commensals; however, next-generation sequencing has facilitated the discovery of the diverse and delicate microbial relationship in body sites and blood. Increasing evidence regarding the blood microbiome has revolutionized the concept of sterility and germ theory in circulation. Among the types of microbial communities in the blood, bacteriomes associated with many health conditions have been thoroughly investigated. Blood bacterial profiles in healthy subjects are identified as the eubiotic blood bacteriome, whereas the dysbiotic blood bacteriome represents the change in bacterial characteristics in subjects with diseases showing deviations from the eubiotic profiles. The blood bacterial characteristics in each study are heterogeneous; thus, the association between eubiotic and dysbiotic blood bacteriomes and health and disease is still debatable. Thereby, this review aims to summarize and discuss the evidence concerning eubiotic and dysbiotic blood bacteriomes characterized by next-generation sequencing in human studies. Knowledge pertaining to the blood bacteriome will transform the concepts around health and disease in humans, facilitating clinical implementation in the near future.

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Section: Neurological Disorders and Profiles Of Blood Dysbiosismentioning

confidence: 99%