Cloning and Characterization of Trypanosoma congolense and T. vivax Nucleoside Transporters Reveal the Potential of P1-Type Carriers for the Discovery of Broad-Spectrum Nucleoside-Based Therapeutics against Animal African Trypanosomiasis

Ungogo, Marzuq A.; Aldfer, Mustafa M.; Natto, Manal J.; Zhuang, Hainan; Chisholm, R.; Walsh, Katy; McGee, MarieClaire; Ilbeigi, Kayhan; Asseri, Jamal Ibrahim; Burchmore, Richard; Caljon, Guy; Calenbergh, Serge Van; Koning, Harry P. de

doi:10.3390/ijms24043144

Cited by 10 publications

(15 citation statements)

References 105 publications

(225 reference statements)

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“…Because the nitrofuranylazines showed the best trypanocidal activity against the animal trypanosome T. congolense IL3000 (Figure 2), structure−activity relationships (SARs) were observed relative to the said trypanosome. Differences in drug sensitivity may result from variances in the parasites' capacity to internalize, 59 activate, 60 and/or metabolize 61 drug candidates. Moreover, based on the promising in vitro trypanocidal activity and selectivity of derivatives 4a, 7a, and 8b (Table 2), these azines were selected for in vivo treatment efficacy assessment in T. congolense IL3000 infected mice.…”

Section: Discussionmentioning

confidence: 99%

In Vitro and In Vivo Trypanocidal Efficacy of Nitrofuryl- and Nitrothienylazines

Janse van Rensburg,

N’Da,

Suganuma

2023

ACS Omega

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African trypanosomiasis is a vector-borne disease of animals and humans in the tsetse fly belt of Africa. Trypanosoma congolense ("nagana") is the most pathogenic trypanosome in livestock and causes high morbidity and mortality rates among cattle. In the absence of effective preventative vaccines, the management of trypanosomiasis relies on chemoprophylaxis and/or -therapy. However, the trypanocides in clinical use exhibit poor oral bioavailability and toxicity, and therapeutic failures occur because of resistant strains. Because nitrofurantoin displayed, in addition to its clinical use, promising antiparasitic activity, the current study was conducted to evaluate the in vitro trypanocidal activity and preliminary in vivo treatment efficacy of previously synthesized nitrofuranylazines. The trypanocidal activity of these nitrofuran derivatives varied among the evaluated trypanosome species; however, T. congolense strain IL3000 was more susceptible than other animal and human trypanosomes. The nitrofurylazines 4a (IC 50 0.04 μM; SI > 7761) and 7a (IC 50 0.03 μM; SI > 9542) as well as the nitrothienylazine 8b (IC 50 0.04 μM; SI 232), with nanomolar IC 50 values, were revealed as early antitrypanosomal leads. Although these derivatives showed strong trypanocidal activity in vitro, no in vivo treatment efficacy was observed in T. congolense IL3000 infected mice after both oral and intraperitoneal administration in a preliminary study. This was attributed to the poor solubility of the test compounds in the in vivo testing media. Indeed, a challenge in drug discovery is finding a balance between the physicochemical properties of a drug candidate, particularly lipophilicity and water solubility, and maintaining adequate potency to provide an effective dose. Hence, future chemical modifications may be required to generate lead-like to lead-like nitrofuranylazines that possess optimal physicochemical and pharmacokinetic properties while retaining in vitro and, ultimately, in vivo trypanocidal efficacy.

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Section: Discussionmentioning

confidence: 99%

In Vitro and In Vivo Trypanocidal Efficacy of Nitrofuryl- and Nitrothienylazines

Janse van Rensburg,

N’Da,

Suganuma

2023

ACS Omega

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“…The recognition patterns of P1 and P2 will be further described in the drug development sections. Interestingly, T. congolense and T. vivax that cause animal trypanosomiasis lack P2 altogether and have only one major P1 transporting activity in each species (Ungogo et al 2023 ). The single T. congolense P1 transporter is called Tco AT1 or Tco NT10 (not to be confused with Tb AT1 from T. brucei , which is a P2 transporter), and the only T. vivax P1 transporter that could be confirmed to be active is called Tvx NT3.…”

Section: Nucleoside and Nucleobase Transportmentioning

confidence: 99%

“…Transport studies showed that both Tco AT1 and Tvx NT3 are purine-specific and recognize typical P1 substrates (adenosine, inosine, and guanosine), but Tvx NT3 has a broader substrate specificity and can also bind purine nucleobases (not tested as substrates). Similarly to the T. brucei P1 transporters (but unlike P2), Tco AT1 and Tvx NT3 does not seem to transport drugs tested from the diamidine and melanophenyl arsenical families (Munday et al 2013 , Ungogo et al 2023 ). In addition to the purine nucleoside transporters, all three species have several genes encoding purine nucleobase transporters, although they have only been characterized in T. brucei .…”

Section: Nucleoside and Nucleobase Transportmentioning

confidence: 99%

Targeting the nucleotide metabolism of Trypanosoma brucei and other trypanosomatids

Hofer

2023

FEMS Microbiology Reviews

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African sleeping sickness, Chagas disease, and leishmaniasis are life-threatening diseases that together affect millions of people around the world and are caused by different members of the protozoan family Trypanosomatidae. The most-studied member of the family is Trypanosoma brucei, which is spread by tsetse flies and causes African sleeping sickness. Nucleotide metabolism in T. brucei and other trypanosomatids is significantly different from that of mammals and was recognized as a target for chemotherapy already in the 1970s–1980 s. A more thorough investigation of the nucleotide metabolism in recent years has paved the way for identifying nucleoside analogues that can cure T. brucei brain infections in animal models. Specific features of T. brucei nucleotide metabolism include the lack of de novo purine biosynthesis, the presence of very efficient purine transporters, the lack of salvage pathways for CTP synthesis, unique enzyme localizations, and a recently discovered novel pathway for dTTP synthesis. This review describes the nucleotide metabolism of T. brucei, highlights differences and similarities to other trypanosomatids, and discusses how to exploit the parasite-specific features for drug development.

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“…This system provides an ideal null background for the expression and characterization of single equilibrative nucleoside transporter (ENT) genes. Using the same null background Leishmania mexicana cell line, in the manuscript “Cloning and Characterization of Trypanosoma congolense and T. vivax Nucleoside Transporters Reveal the Potential of P1-Type Carriers for the Discovery of Broad-Spectrum Nucleoside-Based Therapeutics against Animal African Trypanosomiasis” Ungogo et al [ 7 ] investigated the druggability of the main adenosine transporters (purine nucleoside transporter NT3) of T. vivax (TvxNT3) and T. congolense (TcoAT1/NT10) by 7-substituted tubercidins and other nucleoside analogs. They showed that chemotherapy for Animal African Trypanosomiasis is possible.…”

Section: Original Research Workmentioning

confidence: 99%

Overcoming Biological Barriers: Importance of Membrane Transporters in Homeostasis, Disease and Disease Treatment

Ciarimboli

2023

IJMS

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Cloning and Characterization of Trypanosoma congolense and T. vivax Nucleoside Transporters Reveal the Potential of P1-Type Carriers for the Discovery of Broad-Spectrum Nucleoside-Based Therapeutics against Animal African Trypanosomiasis

Cited by 10 publications

References 105 publications

In Vitro and In Vivo Trypanocidal Efficacy of Nitrofuryl- and Nitrothienylazines

In Vitro and In Vivo Trypanocidal Efficacy of Nitrofuryl- and Nitrothienylazines

Targeting the nucleotide metabolism of Trypanosoma brucei and other trypanosomatids

Overcoming Biological Barriers: Importance of Membrane Transporters in Homeostasis, Disease and Disease Treatment

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