Rudo Kieft scite author profile

Intercellular communication between parasites and with host cells provides mechanisms for parasite development, immune evasion and disease pathology. Bloodstream African trypanosomes produce membranous nanotubes that originate from the flagellar membrane and disassociate into free extracellular vesicles (EVs). Trypanosome EVs contain several flagellar proteins that contribute to virulence and Trypanosoma brucei rhodesiense EVs contain the serum resistance-associated protein (SRA) necessary for human infectivity. T. b. rhodesiense EVs transfer SRA to non-human infectious trypanosomes allowing evasion of human innate immunity. Trypanosome EVs can also fuse with mammalian erythrocytes resulting in rapid erythrocyte clearance and anemia. These data indicate that trypanosome EVs are organelles mediating non-hereditary virulence factor transfer and causing host erythrocyte remodeling inducing anemia.

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The promoter for a variant surface glycoprotein gene expression site in Trypanosoma brucei.

Zomerdijk

et al. 1990

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The variant‐specific surface glycoprotein (VSG) gene 221 of Trypanosoma brucei is transcribed as part of a 60 kb expression site (ES). We have identified the promoter controlling this multigene transcription unit by the use of 221 chromosome‐enriched DNA libraries and VSG gene 221 expression site specific transcripts. The start of transcription was determined by hybridization and RNase protection analysis of nascent RNA. The 5′ ends of the major transcripts coming from the initiation region map at nucleotide sequences that do not strongly resemble rRNA transcriptional starts even though the transcripts are synthesized by an RNA polymerase highly resistant to alpha‐amanitin. The cloned VSG gene 221 ES transcription initiation region promotes high CAT gene expression, when reintroduced by electroporation into T. brucei. We show that the activity of this expression site is controlled at or near transcription initiation in bloodstream trypanosomes. The 221 ES is inactivated without any sequence alteration within 1.4 kb of the transcription start site. This excludes mechanisms of promoter inactivation involving DNA rearrangements in the vicinity of the transcription start site, e.g. promoter inversion or conversion.

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Localization of the modified base J in telomericVSGgene expression sites ofTrypanosoma brucei

Leeuwen¹,

Wijsman²,

Kieft³

et al. 1997

Genes Dev.

116

140

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African trypanosomes such as Trypanosoma brucei undergo antigenic variation in the bloodstream of their mammalian hosts by regularly changing the variant surface glycoprotein (VSG) gene expressed. The transcribed VSG gene is invariably located in a telomeric expression site. There are multiple expression sites and one way to change the VSG gene expressed is by activating a new site and inactivating the previously active one. The mechanisms that control expression site switching are unknown, but have been suggested to involve epigenetic regulation. We have found previously that VSG genes in silent (but not active) expression sites contain modified restriction endonuclease cleavage sites, and we have presented circumstantial evidence indicating that this is attributable to the presence of a novel modified base ␤-D-glucosyl-hydroxymethyluracil, or J. To directly test this, we have generated antisera that specifically recognize J-containing DNA and have used these to determine the precise location of this modified thymine in the telomeric VSG expression sites. By anti J-DNA immunoprecipitations, we found that J is present in telomeric VSG genes in silenced expression sites and not in actively transcribed telomeric VSG genes. J was absent from inactive chromosome-internal VSG genes. DNA modification was also found at the boundaries of expression sites. In the long 50-bp repeat arrays upstream of the promoter and in the telomeric repeat arrays downstream of the VSG gene, J was found both in silent and active expression sites. This suggests that silencing results in a gradient of modification spreading from repetitive DNA flanks into the neighboring expression site sequences. In this paper, we discuss the possible role of J in silencing of expression sites.

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β- d -Glucosyl-hydroxymethyluracil is a conserved DNA modification in kinetoplastid protozoans and is abundant in their telomeres

Leeuwen¹,

Taylor²,

Mondragon³

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

120

132

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A BSTR ACTThe unusual DNA base ␤-D-glucosylhydroxymethyluracil, called ''J,'' replaces Ϸ0.5-1% of Thy in DNA of African trypanosomes but has not been found in other organisms thus far. In Trypanosoma brucei, J is located predominantly in repetitive DNA, and its presence correlates with the silencing of telomeric genes. Using antibodies specific for J, we have developed sensitive assays to screen for J in a range of organisms and have found that J is not limited to trypanosomes that undergo antigenic variation but is conserved among Kinetoplastida. In all kinetoplastids tested, including the human pathogens Leishmania donovani and Trypanosoma cruzi, J was found to be abundantly present in the (GGGTTA) n telomere repeats. Outside Kinetoplastida, J was found only in Diplonema, a small phagotrophic marine f lagellate, in which we also identified 5-MeCyt. Fractionation of Diplonema DNA showed that the two modifications are present in a common genome compartment, which suggests that they may have a similar function. Dinof lagellates appear to contain small amounts of modified bases that may be analogs of J. The evolutionary conservation of J in kinetoplastid protozoans suggests that it has a general function, repression of transcription or recombination, or a combination of both. T. brucei may have recruited J for the control of genes involved in antigenic variation.In the nuclear DNA of Trypanosoma brucei, Ϸ0.5-1% of Thy is replaced by the modified base ␤-D-glucosyl-hydroxymethyluracil (␤-gluc-HOMeUra) (1). This base that we call ''J'' was detected initially by 32 P-nucleotide postlabeling combined with twodimensional TLC (2D-TLC) (2), and we used this technique to show that approximately one-half of the cellular J is present in both strands of the telomeric (GGGTTA) n repeats (3). To map the location of J more precisely, we have generated antisera that immunoprecipitate J-containing duplex DNA and that detect this DNA with high sensitivity and specificity on dot blots (4). We have used these antisera to demonstrate that J is present in other repetitive DNA sequences but not in housekeeping genes or transcribed repeats (4). Moreover, we have shown that J is responsible for the blocked restriction sites that are present in silent telomeric variant surface glycoprotein (VSG) genes but not in actively transcribed VSG genes (4-6). This result has linked J to the transcriptional control of VSG genes.Thus far, J has been detected only in African trypanosome species that undergo antigenic variation (2). The availability of antibodies acting against J has prompted us to reinvestigate whether J is also present in other organisms. With anti-J-DNA immunoblots, approximately one J per 10 7 bases can be detected, which is Ϸ1,000-fold more sensitive than MATERIALS AND METHODSCells and DNA Analysis. DNA was derived from: T. brucei brucei (427); Trypanosoma congolense (WG81 and TSW13 bloodstream forms and WG81 procyclics); Trypanosoma vivax (Y58); Crithidia fasciculata (ϭ C. luciliae); Leishmania donovani (HU3); Leishmania tarentol...

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Rudo Kieft

Extracellular Vesicles from Trypanosoma brucei Mediate Virulence Factor Transfer and Cause Host Anemia

The promoter for a variant surface glycoprotein gene expression site in Trypanosoma brucei.

Localization of the modified base J in telomericVSGgene expression sites ofTrypanosoma brucei

β- d -Glucosyl-hydroxymethyluracil is a conserved DNA modification in kinetoplastid protozoans and is abundant in their telomeres

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