Development of the Gateway® system for cloning and expressing genes in Entamoeba histolytica

Abhyankar, Mayuresh M.; Hochreiter, Amelia E.; Connell, Sarah K.; Gilchrist, Carol A.; Mann, Barbara J.; Petri, William A.

doi:10.1016/j.parint.2008.08.004

Cited by 8 publications

(6 citation statements)

References 24 publications

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“…These enzymes mediate resistance to hygromycin and are not clinically relevant. These genes have been used in the construction of cloning vehicles for both prokaryotes and eukaryotes (Abhyankar et al, 2009; Gritz and Davies, 1983). …”

Section: Aminoglycoside Modifying Enzymesmentioning

confidence: 99%

Aminoglycoside modifying enzymes

Ramírez

Tolmasky

2010

Drug Resistance Updates

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1,060

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Aminoglycosides have been an essential component of the armamentarium in the treatment of lifethreatening infections. Unfortunately, their efficacy has been reduced by the surge and dissemination of resistance. In some cases the levels of resistance reached the point that rendered them virtually useless. Among many known mechanisms of resistance to aminoglycosides, enzymatic modification is the most prevalent in the clinical setting. Aminoglycoside modifying enzymes catalyze the modification at different −OH or −NH 2 groups of the 2-deoxystreptamine nucleus or the sugar moieties and can be nucleotidyltranferases, phosphotransferases, or acetyltransferases. The number of aminoglycoside modifying enzymes identified to date as well as the genetic environments where the coding genes are located is impressive and there is virtually no bacteria that is unable to support enzymatic resistance to aminoglycosides. Aside from the development of new aminoglycosides refractory to as many as possible modifying enzymes there are currently two main strategies being pursued to overcome the action of aminoglycoside modifying enzymes. Their successful development would extend the useful life of existing antibiotics that have proven effective in the treatment of infections. These strategies consist of the development of inhibitors of the enzymatic action or of the expression of the modifying enzymes. Keywordsantibiotic resistance; aminoglycoside; aminoglycoside modifying enzyme; acetyltransferase; nucleotidyltransferase; phosphotransferase; kinase; antisense; RNase P; RNase H; bacterial infection 1. A brief overview of aminoglycoside antibiotics General aspectsAminoglycoside antibiotics are a complex family of compounds characterized for having an aminocyclitol nucleus (streptamine, 2-deoxystreptamine, or streptidine) linked to amino sugars through glycosidic bonds. In addition, other compounds such as spectinomycin, which is an aminocyclitol not linked to amino sugars, or compounds that include the aminocyclitol fortamine are also included in this family (Bryskier, 2005;Veyssier and Bryskier, 2005). Aminoglycosides are primarily used in the treatment of infections caused by gram-negative aerobic bacilli, staphylococci, and other gram-positives (Yao and

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Section: Aminoglycoside Modifying Enzymesmentioning

confidence: 99%

Aminoglycoside modifying enzymes

Ramírez

Tolmasky

2010

Drug Resistance Updates

1,120

1,060

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“…E. histolytica cells were transformed with a cDNA over-expression library constructed in the episomal pAH-DEST expression vector [23] . Expression from this vector is constitutively by sequences derived from the upstream region of the E. histolytica ferredoxin gene [24] .…”

Section: Resultsmentioning

confidence: 99%

“…The LR Clonase system (Invitrogen) was used to transfer cDNA inserts from pENTR™222 to pAH-DEST [23] , a Gateway-compatible E. histolytica expression vector (kind gift from C.A. Gilchrist and W.A.…”

Section: Methodsmentioning

confidence: 99%

A Genome-Wide Over-Expression Screen Identifies Genes Involved in Phagocytosis in the Human Protozoan Parasite, Entamoeba histolytica

et al. 2012

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Functional genomics and forward genetics seek to assign function to all known genes in a genome. Entamoeba histolytica is a protozoan parasite for which forward genetics approaches have not been extensively applied. It is the causative agent of amoebic dysentery and liver abscess, and infection is prevalent in developing countries that cannot prevent its fecal-oral spread. It is responsible for considerable global morbidity and mortality. Given that the E. histolytica genome has been sequenced, it should be possible to apply genomic approaches to discover gene function. We used a genome-wide over-expression screen to uncover genes regulating an important virulence function of E. histolytica, namely phagocytosis. We developed an episomal E. histolytica cDNA over-expression library, transfected the collection of plasmids into trophozoites, and applied a high-throughput screen to identify phagocytosis mutants in the population of over-expressing cells. The screen was based on the phagocytic uptake of human red blood cells loaded with the metabolic toxin, tubercidin. Expression plasmids were isolated from trophozoites that survived exposure to tubercidin-charged erythrocytes (phagocytosis mutants), and the cDNAs were sequenced. We isolated the gene encoding profilin, a well-characterized cytoskeleton-regulating protein with a known role in phagocytosis. This supports the validity of our approach. Furthermore, we assigned a phagocytic role to several genes not previously known to function in this manner. To our knowledge, this is the first genome-wide forward genetics screen to be applied to this pathogen. The study demonstrates the power of forward genetics in revealing genes regulating virulence in E. histolytica. In addition, the study validates an E. histolytica cDNA over-expression library as a valuable tool for functional genomics.

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“…This system has been applied successfully to P. falciparum single-exon genes, with an 84% cloning efficiency and a 100% success rate when subcloned into three expression vectors [31]. The same approach was used to identify novel malaria antigens for DNA vaccines [86] and it is being adopted for cloning and expressing genes in Entamoeba histolytica [87]. Similarly, this system can be quickly adopted for any parasite of interest to build a battery of expression vectors designed specifically to express and produce recombinant proteins in any parasite specific heterologous system developed [88].…”

Section: Discussionmentioning

confidence: 99%

Production of recombinant proteins from protozoan parasites

Fernández-Robledo¹,

Vasta²

2010

Trends in Parasitology

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Although the past decade has witnessed the sequencing from an increasing number of parasites, modern high-throughput DNA sequencing technologies have the potential to generate complete genome sequences at even higher rates. Along with the discovery of genes that might constitute potential targets for chemotherapy or vaccination, the need for novel protein expression platforms has become a pressing matter. In addition to reviewing the advantages and limitations of the currently available and emerging expression systems, we discuss novel approaches that could overcome the current limitations, including the 'pseudoparasite' concept, an expression platform in which the choice of the surrogate organism is based on its phylogenetic affinity to the target parasite, while taking advantage of the whole engineered organism as a vaccination adjuvant. Proteins from protozoan parasites as targets for diagnosis and interventionThe availability of the genome sequences of several parasites of medical importance has led to exponential progress in our understanding of their biology, and enabled the identification of potential targets for intervention [1]. Further, the continued advances in genome sequencing technologies holds great promise for the accomplishment of similar goals for virtually any parasite of interest [2]. When compared to other pathogens of human and veterinary importance, such as viruses and bacteria, large gaps exist in our knowledge of the virulence and pathogenesis mechanisms of protozoan parasites, and methodologies for eradication or management of parasitic diseases through vaccination or treatment are still in the distant future. Characterization of genes of interest for potential intervention identified by mining these genomes has been hindered because of the lack of suitable protein expression systems. A clear example is Plasmodium falciparum, the etiological agent of malaria, for which the lack of an effective vaccine, and the rapid emergence of drug-resistant strains, have made most intervention attempts extremely challenging [3]. Therefore, the development of innovative and efficient systems for the expression of recombinant proteins from protozoan parasites has become an urgent public health matter.

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Development of the Gateway® system for cloning and expressing genes in Entamoeba histolytica

Cited by 8 publications

References 24 publications

Aminoglycoside modifying enzymes

Aminoglycoside modifying enzymes

A Genome-Wide Over-Expression Screen Identifies Genes Involved in Phagocytosis in the Human Protozoan Parasite, Entamoeba histolytica

Production of recombinant proteins from protozoan parasites

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