Your search keyword '"Hosseini, Saeedeh Sadat"' showing total 3 results

1. Relationship of Leishmania RNA Virus (LRV) and treatment failure in clinical isolates of Leishmania major

Author

Abtahi, Mohsen, Eslami, Gilda, Cavallero, Serena, Vakili, Mahmood, Hosseini, Saeedeh Sadat, Ahmadian, Salman, Boozhmehrani, Mohammad Javad, and Khamesipour, Ali

Published

2020

2. The role of ATP-binding cassette transporter genes expression in treatment failure cutaneous leishmaniasis.

Author

Boozhmehrani, Mohammad Javad, Eslami, Gilda, Khamesipour, Ali, Jafari, Abbas Ali, Vakili, Mahmood, Hosseini, Saeedeh Sadat, and Askari, Vahideh

Subjects

CUTANEOUS leishmaniasis, ATP-binding cassette transporters, LEISHMANIASIS, TREATMENT failure, GENE expression profiling, SAND flies, GENE expression, TREATMENT effectiveness

Abstract

Leishmaniasis is one of the common diseases transmitted by sand flies in tropical and subtropical regions of the world. Currently, antimonial derivatives are the first line of treatment. Some of the members of the ATP-binding cassette (ABC) family of Leishmania are shown to be associated with no response to treatment. In this study, we evaluated ABCI4, ABCG2, ABCC7, ABCB4, and ABCC3 genes expression in Leishmania isolated from patients with non-healing cutaneous leishmaniasis and treatment response isolates. We selected 17 clinical isolates including 8 treatment failure and 9 treatment response samples from September 2020 to March 2021. The isolates were obtained from patients of Health Center Laboratory of Varzaneh, Isfahan, Iran with cutaneous leishmaniasis. The diagnosis was performed using microscopic observation. The samples were directly collected from the lesions. The expression profiling of genes was assessed using SYBR Green real-time PCR that was analyzed with delta-delta Ct. All treatment failure clinical isolates were L. major. Gene expression analysis in treatment failure isolates showed that the ABC transported genes had a different pattern in each isolate. Treatment failure has been reported for cutaneous leishmaniasis worldwide. Knowledge of the molecular mechanisms of treatment failure could solve this problem. ABC transporter genes are considered controversial over the mechanisms of treatment failure outcomes. In this study, we showed that ABC transporter genes could be considered one of the important mechanisms. [ABSTRACT FROM AUTHOR]

Published

2022

3. Molecular characteristic of treatment failure clinical isolates of Leishmania major.

Author

Eslami, Gilda, Hatefi, Samira, Ramezani, Vahid, Tohidfar, Masoud, Churkina, Tatyana V., Orlov, Yuriy L., Hosseini, Saeedeh Sadat, Boozhmehrani, Mohammad Javad, and Vakili, Mahmood

Subjects

LEISHMANIA major, LEISHMANIA, LEISHMANIA mexicana, CUTANEOUS leishmaniasis, GENE amplification, GENETIC overexpression, CLINICAL pathology

Abstract

Background: Leishmaniasis is a prevalent tropical disease caused by more than 20 Leishmania species (Protozoa, Kinetoplastida and Trypanosomatidae). Among different clinical forms of the disease, cutaneous leishmaniasis is the most common form, with an annual 0.6-1 million new cases reported worldwide. This disease's standard treatment is pentavalent antimonial (SbV) that have been used successfully since the first half of the 20th century as a first-line drug. However, treatment failure is an increasing problem that is persistently reported from endemic areas. It is important to define and standardize tests for drug resistance in cutaneous leishmaniasis. SbV must be reduced to its trivalent active form (SbIII). This reduction occurs within the host macrophage, and the resultant SbIIIenters amastigotes via the aquaglyceroporin1 (AQP1) membrane carrier. Overexpression of AQP1 results in hypersensitivity of the parasites to SbIII, but resistant phenotypes accompany reduced expression, inactivation mutations, or deletion of AQP1. Hence, in this study, a phylogenetic analysis using barcode gene COXII and kDNA minicircle and expression analysis of AQP1 were performed in treatment failure isolates to assess the isolates' molecular characteristics and to verify possible association with drug response. Methods: Samples in this study were collected from patients with cutaneous leishmaniasis referred to the Diagnosis Laboratory Center in Isfahan Province, Iran, from October 2017 to December 2019. Among them, five isolates (code numbers 1-5) were categorized as treatment failures. The PCR amplification of barcode gene COXII and kDNA minicircle were done and subsequently analyzed using MEGA (10.0.5) to perform phylogenetics analysis of Treatment failures (TF) and Treatment response (TR) samples. Relative quantification of the AQP1 gene expression of TF and TR samples was assessed by real-time PCR. Results: All samples were classified as L. major. No amplification failure was observed in the cases of barcode gene COXII and kDNA minicircle amplification. Having excluded the sequences with complete homology using maximum parsimony with the Bootstrap 500 method, four major groups were detected to perform phylogenetic analysis using COXII. The phylogenetic analysis using the barcode target of minicircle showed that all five treatment failure isolates were grouped in a separate sub-clade. Conclusions: We concluded that the barcode gene COXII and the minicircle kDNA were suitable for identification, differentiation and phylogenetic analysis in treatment failure clinical isolates of Leishmania major. Also, AQP1 gene expression analyses showed that treatment failure isolates had less expression than TR isolates. The isolate with TF and overexpression of the AQP1 gene of other molecular mechanisms such as overexpression of ATP-binding cassette may be involved in the TR, such as overexpression of ATP-binding cassette which requires further research. [ABSTRACT FROM AUTHOR]

Published

2021