Sequences from 16 of the genera identified in the IC samples were further assigned to 22 different species (Additional file 3: Table S3). When comparing to our previous study, 13 Ulixertinib order of these species are www.selleckchem.com/products/PD-0332991.html already found in asymptomatic HF urine. However, nine of these species were not identified in our previous study, nor associated with IC according to literature. Variation between individual IC urine samples A clustering analysis using
taxonomical data from both IC and HF individual urine samples is shown in Figure 2. As previously demonstrated for HF urine (Siddiqui et al. 2011 [16]), variation between individuals was also evident for IC urine samples and a polymicrobial state was identified for all but one of the IC urine specimens. Although a clear clustering of samples from the two communities (IC and HF) was not apparent, we observed a narrower taxonomical range and reduced complexity in individual IC urine samples compared to the results from individual HF samples. Figure 2 Hierarchical clustering of urine microbiomes. Heat map showing the relative abundance of bacterial genera across the urine samples. Genera are listed to the right. Subjects are listed at the top: interstitial cystitis (IC) samples denoted as P_number_V1V2 or V6, and healthy female (HF) urine samples as F_number_V1V2 or V6. Pink indicates IC urine,
green HF urine. Color intensity of the heat map is directly proportional to log 10 scale of the abundance normalized sequence data as done by Anidulafungin (LY303366) MEGAN V3.4. Taxa marked YH25448 cell line with (*) are genera that were significantly (p ≤ 0.05, p value from Metastats) different between the IC and HF urine microbiota. Genera marked with (†) and (§) are unique for HF urine sequences and IC urine sequences, respectively. Note that most of the IC urine samples are less complex than what is seen for HF urine samples. In all but two IC urine samples, Lactobacillus accounted
for more than ~95% of the sequences for both V1V2 and V6 data. Lactobacillus was not only the most abundant genus, but also the most frequent genus among all IC urine specimens with its rRNA sequences present in all eight samples, in contrast to urine samples from HF (6/8). Sequences assigned to Prevotella, Peptoniphilus and Anaerococcus were also frequently detected (5/8), followed by Staphylococcus and Finegoldia (4/8), and Gardnerella, Streptococcus and Dialister (3/8) in IC urine. Including Ureaplasma, 7 genera were identified by reads belonging to 2 urine samples and another 15 genera were only detected in 1 out of the 8 samples. Species richness and diversity Estimation of species richness and diversity were calculated for the two combined V1V2 and V6 sequence pools (Table 1), as well as for single urine samples (Additional file 2: Table S2). At the species level, defined as OTUs at 3% genetic difference, 344 species for the V1V2 and 1,008 species for the V6 sequence datasets were estimated in the IC urine community.