At the present time virtually no data are available about the structure of the genus Candida fungus able to target HIV-infected patients and serve as an etiological factor of candidiasis. The aforementioned shaped the aim of the study: to examine structure of the Candida genus community colonizing the oropharynx in HIV-infected patients with clinical manifestations of oropharyngeal candidiasis. There was conducted a microbiological study of the oropharynx in 31 HIV-infected patients (51.6% males and 48.4% females) with clinical manifestations of oropharyngeal candidiasis treated at Moscow Infectious Clinic No. 2 inpatient department in the years 2015–2017. We confirmed the diversity of the oropharyngeal Candida spp. community found in HIV-infected patients. Total 52 isolates of the genus Candida were isolated. C. albicans dominated in 57.7% cases, whereas C. glabrata prevailed (21.1%) among non-albicans species. Minor components were represented by C. tropicalis (11.5%) and C. krusei (9.6%). C. albicans and C. glabrata were sensitive to polyenes, whereas minor community components — to itroconazole and clotrimazole. The vast majority of fungal strains were resistant to fluconazole. The genus Candida community reveals a unique architecture so that any member may exist in the oropharyngeal biotope of HIV-infected patients as a monoculture or in association: homogeneous, consisting of a single species strains, or heterogeneous, formed by several species. Candida fungi in 18 patients (58.1%) were isolated as a monoculture, whereas in 13 (41.9%) subjects — in association consisting of 34 isolates (65.4% of total number), of which 16 (30.8%) and 18 (34.6%) were isolated from homogeneous and heterogeneous associations, respectively. There were identified 9 two-component associations (69.2%), and 4 (30.8%) consisting of three or more components. It turned out that pattern of the examined community was mainly determined by species composition that agrees with previous data. Most common associations were presented by C. krusei (100%) and C. albicans (73.3%). Upon that, most often C. albicans (72.7%) formed a homogeneous type of associations. Sensitivity of Candida fungi to antimycotic drugs also depended on the architecture of related community. C. albicans isolates in heterogeneous associations revealed a wide range of resistance acquired by contact with non-albicans species.
Candida fungi are common opportunistic microorganisms capable of causing infections of various localization, as well as life-threatening conditions in immunocompromised patients, such as HIV-infected individuals, oncology patients, subjects undergoing HSCT, which number has been steadily increasing in recent years. In addition, resistance to anti-fungal drugs has been spreading as well. Naturally sensitive to azoles, C. albicans possess a variety of mechanisms of acquired resistance, including efflux transporters and target protein-encoding gene amplification. This study was conducted to assess a prevalence of such mechanisms in the isolates sample obtained from HIV-infected patients in the Moscow region of the Russian Federation, characterize a relationship between these mechanisms and patterns of developing drug resistance. 18 strains of C. albicans resistant to fluconazole and voriconazole were isolated from HIV-infected patients with recurrent oropharyngeal candidiasis in the Moscow region. The expression levels of the ERG11, MDR1, CDR1, CDR2 genes involved in the formation of acquired azole resistance were measured using quantitative PCR, the 2CT method with ACT and PMA genes as control genes and reference values of sensitive isolates. Expression levels exceeding the average values of sensitive isolates by more than 3 standard deviations were considered significantly elevated. In most of the isolates, elevated levels of CDR1 and CDR2 gene expression were found: 89% and 78%, respectively. The expression level of the MDR1 gene was increased only in 28% of cases. ERG11 expression levels were significantly elevated in 78% of the isolates. Expression levels of all resistance genes studied were significantly increased in 4 strains. In this sample of C. albicans isolates, acquired resistance is mainly associated with efflux vectors encoded by the CDR1 and CDR2 genes. Also, in most isolates, an increased expression level for the azole target protein gene ERG11 was detected. The expression level of the efflux transporter gene MDR1 was increased in the smallest number of samples. It is also impossible to exclude a potential role of other mechanisms in developing acquired resistance, such as mutations in the ERG11 gene. It can be assumed that the identified mechanisms of resistance result from long-term, widespread, and sometimes uncontrolled use of azoles, including those in treatment and prevention of candidiasis in HIV-infected patients.
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