Soheila Rouhani1, Asad Mirzaei2, Adel Spotin3, Parviz Parvizi4. 1. Parasitology Department, Medical Faculty, Shahid Beheshti University of Medical Sciences, Tehran, Iran. 2. Parasitology Department, Medical Faculty, Shahid Beheshti University of Medical Sciences, Tehran, Iran; Molecular Systematics Laboratory, Parasitology Department, Pasteur Institute of Iran, 69 Pasteur Avenue, Tehran, Iran; Medical Faculty, University of Ilam Medical Sciences, Ilam, Iran. 3. Parasitology Department, Medical Faculty, Shahid Beheshti University of Medical Sciences, Tehran, Iran; Molecular Systematics Laboratory, Parasitology Department, Pasteur Institute of Iran, 69 Pasteur Avenue, Tehran, Iran; Parasitology Department, Medical Faculty, Tabriz University of Medical Sciences, Tabriz, Iran. 4. Molecular Systematics Laboratory, Parasitology Department, Pasteur Institute of Iran, 69 Pasteur Avenue, Tehran, Iran. Electronic address: parp@pasteur.ac.ir.
Abstract
BACKGROUND: One of the well-known foci of zoonotic cutaneous leishmaniasis (ZCL) in Iran is Turkemen Sahara, which is located in north eastern Iran. ZCL is a disease of mammals, and humans can become infected as accidental hosts. Many researchers have argued that Rhombomys opimus is the only main reservoir host of ZCL in this region of the Golestan province. No other rodents or mammals are thought to host or have been reported to host Leishmania parasites in this region. This research was designed and developed to isolate, detect and firmly identify Leishmania parasites in mammals and rodents other than R. opimus. METHODS: Wild mammals were caught from gerbil burrows. Leishmania parasites were detected to assess the infection of reservoir hosts in 2010. Each genomic DNA sample was screened for Leishmania infection via nested PCR and sequencing using the internal transcribed spacer ribosomal DNA (ITS-rDNA) identification protocol for parasites. RESULTS: The greatest number of infections (8/19) were found in Meriones libycus. One in three infections was found in Hemiechinus auritus, and this is the first report of infection in this species. Only Leishmania major was definitively identified and unambiguously typed in M. libycus and H. auritus. The infection rates in these two wild mammals were not significantly different, and no other gerbil parasites were detected in M. libycus or H. auritus at our study site. CONCLUSIONS: Recent findings of Leishmania turanica in R. opimus and failures to detect L. turanica in M. libycus may be attributable to unidentified Leishmania infections in two M. libycus due to unreadable sequences. These cases may represent mixed infections by L. major and L. turanica. The assumptions that gerbil parasites can be co-infectors provide a starting point for the identification of the causative and potential parasites responsible for the frequent infections that are mainly mediated via sandfly vectors.
BACKGROUND: One of the well-known foci of zoonotic cutaneous leishmaniasis (ZCL) in Iran is Turkemen Sahara, which is located in north eastern Iran. ZCL is a disease of mammals, and humans can become infected as accidental hosts. Many researchers have argued that Rhombomys opimus is the only main reservoir host of ZCL in this region of the Golestan province. No other rodents or mammals are thought to host or have been reported to host Leishmania parasites in this region. This research was designed and developed to isolate, detect and firmly identify Leishmania parasites in mammals and rodents other than R. opimus. METHODS: Wild mammals were caught from gerbil burrows. Leishmania parasites were detected to assess the infection of reservoir hosts in 2010. Each genomic DNA sample was screened for Leishmania infection via nested PCR and sequencing using the internal transcribed spacer ribosomal DNA (ITS-rDNA) identification protocol for parasites. RESULTS: The greatest number of infections (8/19) were found in Meriones libycus. One in three infections was found in Hemiechinus auritus, and this is the first report of infection in this species. Only Leishmania major was definitively identified and unambiguously typed in M. libycus and H. auritus. The infection rates in these two wild mammals were not significantly different, and no other gerbil parasites were detected in M. libycus or H. auritus at our study site. CONCLUSIONS: Recent findings of Leishmania turanica in R. opimus and failures to detect L. turanica in M. libycus may be attributable to unidentified Leishmania infections in two M. libycus due to unreadable sequences. These cases may represent mixed infections by L. major and L. turanica. The assumptions that gerbil parasites can be co-infectors provide a starting point for the identification of the causative and potential parasites responsible for the frequent infections that are mainly mediated via sandfly vectors.
Authors: Abedin Saghafipour; Hassan Vatandoost; Ali Reza Zahraei-Ramazani; Mohammad Reza Yaghoobi-Ershadi; Moharram Karami Jooshin; Yavar Rassi; Mohammad Reza Shirzadi; Amir Ahmad Akhavan; Ahmad Ali Hanafi-Bojd Journal: J Arthropod Borne Dis Date: 2017-09-08 Impact factor: 1.198