ObjectiveAccumulative evidence suggests that gut microbiota play an important role in bone remodeling and hence bone health maintenance. This study aimed to explore the association of gut microbiota with the risk of osteoporosis and to identify potential disease-related taxa, which may be promising targets in osteoporosis prevention and treatment in the future.MethodsAbsolute quantification 16S ribosomal RNA gene sequencing was used to detect absolute and relative abundances of gut microbiota in 44 patients with osteoporosis and 64 controls. In combination with one of our previous studies, a total of 175 samples were involved in the relative abundance analysis.ResultsCompared with the controls, the patients with osteoporosis had higher absolute and relative abundances of Bacteroidetes phylum, and Bacteroides and Eisenbergiella genera. The absolute abundances of Clostridium_XlVa, Coprococcus, Lactobacillus, and Eggerthella genera increased, and that of the Veillonella genus decreased in the osteoporosis group. As for relative abundance, that of the Parabacteroides and Flavonifractor genera increased, whereas that of the Raoultella genus decreased in the osteoporosis group. Controlling for potential confounders, the associations of Clostridium_XlVa, Coprococcus, and Veillonella genera with the risk of osteoporosis did not maintain significance. Ridge regression analysis suggested that Bacteroides is associated with reduced bone mineral density (BMD) and T-score at lumbar spines, and Anaerovorax is associated with increased BMD at the femoral neck. Functional predictions revealed that 10 Kyoto Encyclopedia of Genes and Genomes pathways were enriched in the osteoporosis group.ConclusionsGut microbiota compositions may contribute to the risk of osteoporosis. Several specific taxa and functional pathways are identified to associate with reduced bone density, thus providing epidemiologic evidence for the potential role of aberrant gut microbiota in osteoporosis pathogenesis.
Niduterpenoids A (1) and B (2), two sesterterpenoids with a highly congested hexacyclic 5/5/5/5/3/5 carbon skeleton but no unsaturated functional group, were isolated from Aspergillus nidulans. Their structures were determined by a combination of spectroscopic data and single-crystal X-ray diffraction analyses. Compounds 1 and 2 present the first examples of sesterterpenoids with a hexacyclic carbon ring system. Compound 1 showed no cytotoxicity but abolished 17-estradiol-induced cell proliferation (IC 50 = 11.42 ± 0.85 μM).
Six
new 3,5-demethylorsellinic acid-based meroterpenoids, emeridones
A–F (1–6), and eight known
analogues (7–14) were isolated from Emericella sp. TJ29. Their structures and absolute configurations
were elucidated by comprehensive spectroscopic analyses, single-crystal
X-ray diffraction experiments, and electronic circular dichroism calculations.
Emeridone A (1) represents the first meroterpenoid featuring
a unique rigid 6/6/5/6 tetracyclic carbon ring system with two additional
lactone rings. Emeridones B and C (2 and 3) possess a 2,6-dioxabicyclo[2.2.1]heptane and a spiro[bicyclo[3.2.2]nonane-2,1′-cyclohexane]
moiety, respectively, and both functionalities were found for the
second time in meroterpenoids. These new compounds were evaluated
for their cytotoxic activities against five human cancer cells, and
compounds 2, 4, and 6 exhibited
moderate cytotoxic activities, with IC50 values ranging
from 8.19 to 18.80 μM.
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