Your search keyword '"Zhi Dong Hu"' showing total 5 results

1. Persistence of an epidemic cluster of Rhodotorula mucilaginosa in multiple geographic regions in China and the emergence of a 5-flucytosine resistant clone

Author

Jing-Jing Huang, Xin-Fei Chen, Clement K.M. Tsui, Chong-Jie Pang, Zhi-Dong Hu, Yi Shi, Wei-Ping Wang, Lan-Ying Cui, Yu-Ling Xiao, Jie Gong, Xin Fan, Ying-Xing Li, Ge Zhang, Meng Xiao, and Ying-Chun Xu

Subjects

Rhodotorula mucilaginosa, molecular typing, WGS, genomic epidemiology, outbreak, zoonotic, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Rhodotorula mucilaginosa, an environmental yeast widely used in industry and agriculture, is also an opportunistic pathogen resistant to multi-antifungals. During the national surveillance in China, R. mucilaginosa has been documented from various hospitals and regions. At present, the molecular epidemiology of invasive infections caused by R. mucilaginosa and their resistance profiles to antifungals were unknown. Here we collected 49 strains from four hospitals located in different geographic regions from 2009 to 2019 in China, determined their genotypes using different molecular markers and quantified susceptibilities to various antifungals. Sequencing of ITS and D1/D2 regions in rDNA indicated that 73.5% (36/49) of clinical strains belong to same sequence type (rDNA type 2). Microsatellite (MT) genotyping with 15 (recently developed) tandem repeat loci identified 5 epidemic MT types, which accounted for 44.9% (22/49) of clinical strains, as well as 27 sporadic MT types. Microsatellite data indicated that the presence of an epidemic cluster including 35 strains (71.4%) repeatedly isolated in four hospitals for eight years. Single nucleotide variants (SNVs) from the whole genome sequence data also supported the clustering of these epidemic strains due to low pairwise distance. In addition, phylogenetic analysis of SNVs from these clinical strains, together with environmental and animal strains showed that the closely related epidemic cluster strains may be opportunistic, zoonotic pathogens. Also, molecular data indicated a possible clonal transmission of pan echinocandins-azoles-5-flucytosine resistant R. mucilaginosa strains in hospital H01. Our study demonstrated that R. mucilaginosa is a multi-drug resistant pathogen with the ability to cause nosocomial infection.

Published

2022

2. Emergence of Antifungal Resistant Subclades in the Global Predominant Phylogenetic Population of Candida albicans

Author

Jie Gong, Xin-Fei Chen, Xin Fan, Juan Xu, Han Zhang, Ruo-Yu Li, Sharon C-A Chen, Fanrong Kong, Shu Zhang, Zi-Yong Sun, Mei Kang, Kang Liao, Da-Wen Guo, Zhe Wan, Zhi-Dong Hu, Yun-Zhuo Chu, Hong-Mei Zhao, Gui-Ling Zou, Chong Shen, Yuan-Yuan Geng, Wei-Wei Wu, He Wang, Fei Zhao, Xin Lu, Li-Hua He, Gui-Ming Liu, Ying-Chun Xu, Jian-Zhong Zhang, and Meng Xiao

Subjects

Candida albicans, phylogenetic population, azole-resistance, Erg11p, Tac1p, azole-nonsusceptibility, Microbiology, QR1-502

Abstract

ABSTRACT Candida albicans remains the most common species causing invasive candidiasis. In this study, we present the population structure of 551 global C. albicans strains. Of these, the antifungal susceptibilities of 370 strains were tested. Specifically, 66.6% of the azole-nonsusceptible (NS)/non-wild-type (NWT) strains that were tested belonged to Clade 1. A phylogenetic analysis, a principal components analysis, the population structure, and a loss of heterozygosity events revealed two nested subclades in Clade 1, namely, Clade 1-R and Clade 1-R-α, that exhibited higher azole-NS/NWT rates (75.0% and 100%, respectively). In contrast, 6.4% (21/326) of the non-Clade 1-R isolates were NS/NWT to at least 1 of 4 azoles. Notably, all of the Clade 1-R-α isolates were pan-azole-NS/NWT that carried unique A114S and Y257H double substitutions in Erg11p and had the overexpression of ABC-type efflux pumps introduced by the substitution A736V in transcript factor Tac1p. It is worth noting that the Clade 1-R and Clade 1-R-α isolates were from different cities that are distributed over a large geographic span. Our study demonstrated the presence of specific phylogenetic subclades that are associated with antifungal resistance among C. albicans Clade 1, which calls for public attention on the monitoring of the future spread of these clones. IMPORTANCE Invasive candidiasis is the most common human fungal disease among hospitalized patients, and Candida albicans is the predominant pathogen. Considering the large number of infected cases and the limited alternative therapies, the azole-resistance of C. albicans brings a huge clinical threat. Here, our study suggested that antifungal resistance in C. albicans could also be associated with phylogenetic lineages. Specifically, it was revealed that more than half of the azole-resistant C. albicans strains belonged to the same clade. Furthermore, two nested subclades of the clade exhibited extremely high azole-resistance. It is worth noting that the isolates of two subclades were from different cities that are distributed over a large geographic span in China. This indicates that the azole-resistant C. albicans subclades may develop into serious public health concerns.

Published

2023

3. Continual Decline in Azole Susceptibility Rates in Candida tropicalis Over a 9-Year Period in China

Author

Yao Wang, Xin Fan, He Wang, Timothy Kudinha, Ya-Ning Mei, Fang Ni, Yu-Hong Pan, Lan-Mei Gao, Hui Xu, Hai-Shen Kong, Qing Yang, Wei-Ping Wang, Hai-Yan Xi, Yan-Ping Luo, Li-Yan Ye, Meng Xiao, China Hospital Invasive Fungal Surveillance Net (CHIF-NET) Study Group, Zi-Yong Sun, Zhong-Jv Chen, Ying-Chun Xu, Mei Kang, Yu-Ling Xiao, Kang Liao, Peng-Hao Guo, Hua Yu, Lin Yin, Da-Wen Guo, Lan-Ying Cui, Peng-Peng Liu, Hong He, Yan Jin, Hui Fan, Yun-Song Yu, Jie Lin, Ruo-Yu Li, Zhe Wan, Ling Ma, Shuai-Xian Du, Wen-En Liu, Yan-Ming Li, Tie-Li Zhou, Qing Wu, Xin-Lan Hu, Ning Li, Rong Zhang, Hong-Wei Zhou, Yi-Min Li, Dan-Hong Su, Qiang-Qiang Zhang, Li Li, Yun Xia, Li Yan, Zhi-Dong Hu, Na Yue, Yan Jiang, Zhi-Yong Liu, Yu-Ting Zheng, Wei Cao, Yun-Zhuo Chu, Fu-Shun Li, Yun Liu, Yuan-Hong Xu, Ying Huang, Wei Jia, Gang Li, Huo-Xiang Lv, Qing-Feng Hu, Xiu-Li Xu, Xiao-Yan Chen, Xiao-Ling Ma, Huai-Wei Lu, Yin-Mei Yang, Hui-Ling Chen, Jian-Sheng Huang, Hui Jing, Bin San, Yan Du, Hong-Jie Liang, Bin Yang, Yu-Lan Lin, Shan-Mei Wang, Qiong Ma, Hong-Mei Zhao, Li-Wen Liu, Qing Zhang, Fei Xia, Jin-Ying Wu, Mao-Li Yi, Xiang-Yang Chen, Wei-Ping Lu, Xiao-Yan Zeng, Jing Zhang, Jing Wang, Xiao-Guang Xiao, Jia-Yin Liang, Fan-Hua Huang, Gui-Ling Zou, Xue-Fei Du, Xiao-Ming Wang, Xu-Feng Ji, Yong Liu, Zhi-Jie Zhang, Yu-Xing Ni, Sheng-Yuan Zhao, Xiu-Lan Song, Chun-Yan Xu, Lin Meng, Xian-Feng Zhang, Jian-Hong Zhao, Hong-Lian Wei, Xue-Song Xu, Weil Li, Yu-Ping Wang, Mei Xu, Yun-Duo Wang, Jing Song, Tian-Pen Cui, Zhi-Min Hu, Ting-Yin Zhou, Hai-Qing Hu, Xiao-Min Xu, Shan-Yan Liang, Lin-Qiang Deng, Hui Chen, Xiao-Jun Sun, Hai-Bin Wang, Jian-Bang Kang, Tie-Ying Hou, Ping Ji, Na Chen, Wen-Jun Sui, Hai-Tong Gu, Xiao-Qin Ha, Yuan-Yuan Zhang, Shu-Feng Wang, Hong Lu, Yi-Hai Gu, Xuan Hou, Rong Tang, Yan-Yan Guo, Fei Huang, Long-Hua Hu, Xiao-Yan Hu, Juan Li, Lian-Hua Wei, Dan Liu, Yan-Qiu Han, Yi-Hui Yao, Jian-Sheng Wang, Jie Wang, Wei Li, Li-Ping Ning, Wei-Qing Song, Yu-Jie Wang, and Liang Luan

Subjects

Candida tropicalis, antifungal susceptibility, azole, echinocandin, antifungal resistance, Microbiology, QR1-502

Abstract

BackgroundThere have been reports of increasing azole resistance in Candida tropicalis, especially in the Asia-Pacific region. Here we report on the epidemiology and antifungal susceptibility of C. tropicalis causing invasive candidiasis in China, from a 9-year surveillance study.MethodsFrom August 2009 to July 2018, C. tropicalis isolates (n = 3702) were collected from 87 hospitals across China. Species identification was carried out by mass spectrometry or rDNA sequencing. Antifungal susceptibility was determined by Clinical and Laboratory Standards Institute disk diffusion (CHIF-NET10–14, n = 1510) or Sensititre YeastOne (CHIF-NET15–18, n = 2192) methods.ResultsOverall, 22.2% (823/3702) of the isolates were resistant to fluconazole, with 90.4% (744/823) being cross-resistant to voriconazole. In addition, 16.9 (370/2192) and 71.7% (1572/2192) of the isolates were of non-wild-type phenotype to itraconazole and posaconazole, respectively. Over the 9 years of surveillance, the fluconazole resistance rate continued to increase, rising from 5.7 (7/122) to 31.8% (236/741), while that for voriconazole was almost the same, rising from 5.7 (7/122) to 29.1% (216/741), with no significant statistical differences across the geographic regions. However, significant difference in fluconazole resistance rate was noted between isolates cultured from blood (27.2%, 489/1799) and those from non-blood (17.6%, 334/1903) specimens (P-value < 0.05), and amongst isolates collected from medical wards (28.1%, 312/1110) versus intensive care units (19.6%, 214/1092) and surgical wards (17.9%, 194/1086) (Bonferroni adjusted P-value < 0.05). Although echinocandin resistance remained low (0.8%, 18/2192) during the surveillance period, it was observed in most administrative regions, and one-third (6/18) of these isolates were simultaneously resistant to fluconazole.ConclusionThe continual decrease in the rate of azole susceptibility among C. tropicalis strains has become a nationwide challenge in China, and the emergence of multi-drug resistance could pose further threats. These phenomena call for effective efforts in future interventions.

Published

2021

4. Molecular Epidemiology and Antifungal Susceptibility of Candida glabrata in China (August 2009 to July 2014): A Multi-Center Study

Author

Xin Hou, Meng Xiao, Sharon C.-A. Chen, Fanrong Kong, He Wang, Yun-Zhuo Chu, Mei Kang, Zi-Yong Sun, Zhi-Dong Hu, Ruo-Yu Li, Juan Lu, Kang Liao, Tie-Shi Hu, Yu-Xing Ni, Gui-Ling Zou, Ge Zhang, Xin Fan, Yu-Pei Zhao, and Ying-Chun Xu

Subjects

Candida glabrata, multilocus sequence typing (MLST), microsatellite genotyping, antifungal susceptibility, China, Microbiology, QR1-502

Abstract

Candida glabrata is an increasingly important cause of invasive candidiasis. In China, relatively little is known of the molecular epidemiology of C. glabrata and of its antifungal susceptibility patterns. Here we studied 411 non-duplicate C. glabrata isolates from 411 patients at 11 hospitals participating in the National China Hospital Invasive Fungal Surveillance Net program (CHIF-NET; 2010-2014). Genotyping was performed using multilocus sequence typing (MLST) employing six genetic loci and by microsatellite analysis. Antifungal susceptibility testing was performed using Sensititre YeastOne™ YO10 methodology. Of 411 isolates, 35 sequence types (ST) were identified by MLST and 79 different genotypes by microsatellite typing; the latter had higher discriminatory power than MLST in the molecular typing of C. glabrata. Using MLST, ST7 and ST3 were the most common STs (66.4 and 9.5% of all isolates, respectively) with 24 novel STs identified; the most common microsatellite types were T25 (30.4% of all isolates) and T31 (12.4%). Resistance to fluconazole (MIC > 32 μg/mL) was seen in 16.5% (68/411) of isolates whilst MICs of >0.5 μg/mL for voriconazole, >2 μg/mL for itraconazole and >2 μg/mL for posaconazole were seen for 28.7, 6.8, and 7.3% of isolates, respectively; 14.8% of all isolates cross-resistant/non-wide-type to fluconazole and voriconazole. Fluconazole resistant rates increased 3-fold over the 5-year period whilst that of isolates with non-WT MICs to voriconazole, 7-fold. All echinocandins exhibited >99% susceptibility rates against all isolates but notably one isolate exhibited multi-drug resistance to the azoles and echinocandins. The study has provided a global picture of the molecular epidemiology and drug resistance rates of C. glabrata in China during the period of the study.

Published

2017

5. Antifungal susceptibilities of Candida glabrata species complex, Candida krusei, Candida parapsilosis species complex and Candida tropicalis causing invasive candidiasis in China: 3 year national surveillance

Author

Yun Zhuo Chu, Gui Ling Zou, Meng Xiao, Yu Xing Ni, Yingchun Xu, Zi Yong Sun, Shu Lan Chen, Zhi Dong Hu, Xin Fan, Mei Kang, Yan Yan, Tie Shi Hu, Kang Liao, He Wang, Fanrong Kong, and Sharon C.-A. Chen

Subjects

Microbiology (medical), China, Antifungal Agents, Echinocandin, Microbial Sensitivity Tests, Candida parapsilosis, Microbiology, Candida tropicalis, Drug Resistance, Fungal, Candida krusei, medicine, Prevalence, Humans, Pharmacology (medical), Candidiasis, Invasive, Prospective Studies, Candida, Pharmacology, Voriconazole, biology, Candida glabrata, Sequence Analysis, DNA, bacterial infections and mycoses, biology.organism_classification, Hospitals, Infectious Diseases, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Epidemiological Monitoring, Anidulafungin, Fluconazole, medicine.drug

Abstract

Objectives To define the antifungal susceptibility patterns of the most common non-albicans Candida spp. in China. Methods We evaluated the susceptibilities to nine antifungal drugs of Candida parapsilosis species complex, Candida tropicalis, Candida glabrata species complex and Candida krusei isolates from patients with invasive candidiasis at 11 hospitals over 3 years. Isolates were identified by MALDI-TOF MS supplemented by DNA sequencing. MICs were determined by Sensititre YeastOne(TM) using current clinical breakpoints/epidemiological cut-off values to assign susceptibility (or WT), and by CLSI M44-A2 disc diffusion for fluconazole and voriconazole. Results Of 1072 isolates, 392 (36.6%) were C. parapsilosis species complex. C. tropicalis, C. glabrata species complex and C. krusei comprised 35.4%, 24.3% and 3.7% of the isolates, respectively. Over 99.3% of the isolates were of WT phenotype to amphotericin B and 5-flucytosine. Susceptibility/WT rates to azoles among C. parapsilosis species complex were ≥97.5%. However, 11.6% and 9.5% of C. tropicalis isolates were non-susceptible to fluconazole and voriconazole, respectively (7.1% were resistant to both). Approximately 14.3% of C. glabrata sensu stricto isolates (n = 258) were fluconazole resistant, and 11.6% of C. glabrata sensu stricto isolates were cross-resistant to fluconazole and voriconazole. All C. krusei isolates were susceptible/WT to voriconazole, posaconazole and itraconazole. Overall, 97.7%-100% of isolates were susceptible to caspofungin, micafungin and anidulafungin, but 2.3% of C. glabrata were non-susceptible to anidulafungin. There was no azole/echinocandin co-resistance. Disc diffusion and Sensititre YeastOne(TM) methods showed >95% categorical agreement for fluconazole and voriconazole. Conclusions In summary, reduced azole susceptibility was seen among C. tropicalis. Resistance to echinocandins was uncommon.

Published

2014