Your search keyword '"sleeping sickness"' showing total 1,141 results

1. Apolipoprotein-L1 (APOL1): From Sleeping Sickness to Kidney Disease.

Author

Pays, Etienne

Subjects

*HUMAN cloning, *INTRACELLULAR membranes, *ARTIFICIAL membranes, *CELL membranes, *CHRONIC kidney failure

Abstract

Apolipoprotein-L1 (APOL1) is a membrane-interacting protein induced by inflammation, which confers human resistance to infection by African trypanosomes. APOL1 kills Trypanosoma brucei through induction of apoptotic-like parasite death, but two T. brucei clones acquired resistance to APOL1, allowing them to cause sleeping sickness. An APOL1 C-terminal sequence alteration, such as occurs in natural West African variants G1 and G2, restored human resistance to these clones. However, APOL1 unfolding induced by G1 or G2 mutations enhances protein hydrophobicity, resulting in kidney podocyte dysfunctions affecting renal filtration. The mechanism involved in these dysfunctions is debated. The ability of APOL1 to generate ion pores in trypanosome intracellular membranes or in synthetic membranes was provided as an explanation. However, transmembrane insertion of APOL1 strictly depends on acidic conditions, and podocyte cytopathology mainly results from secreted APOL1 activity on the plasma membrane, which occurs under non-acidic conditions. In this review, I argue that besides inactivation of APOL3 functions in membrane dynamics (fission and fusion), APOL1 variants induce inflammation-linked podocyte toxicity not through pore formation, but through plasma membrane disturbance resulting from increased interaction with cholesterol, which enhances cation channels activity. A natural mutation in the membrane-interacting domain (N264K) abrogates variant APOL1 toxicity at the expense of slightly increased sensitivity to trypanosomes, further illustrating the continuous mutual adaptation between host and parasite. [ABSTRACT FROM AUTHOR]

Published

2024

2. Synthesis and in vitro biological activity of chalcone derivatives as potential antiparasitic agents.

Author

Setshedi, Koketso J., Beteck, Richard M., Ilbeigi, Kayhan, Mabille, Dorien, Caljon, Guy, and Legoabe, Lesetja J.

Abstract

Kinetoplastids are a group of flagellated protozoans including medically important parasites of the genus Trypanosoma and Leishmania. The corresponding diseases have afflicted humans for centuries. In an effort to combat kinetoplastid infections, a set of 21 chalcones was synthesized and evaluated for their in vitro anti-protozoal efficacy against Trypanosoma brucei, Trypanosoma brucei rhodesiense, Trypanosoma cruzi, and Leishmania infantum. To ensure safety, these compounds underwent a selectivity evaluation by assessing toxicity against a human lung fibroblast cell line. Compound K4 exhibited remarkable and selective trypanocidal activity against T. b. brucei with IC50 value of 0.31 ± 0.27 µM and T. b. rhodesiense with IC50 value of 0.96 ± 0.86 µM. Compound K9 also showed significant trypanocidal activity against T. b. brucei (IC50: 0.45 ± 0.14 µM) and T. b. rhodesiense (IC50: 0.93 ± 0.51 µM). In both compounds, electron withdrawing groups are appended to the styrenyl moiety. [ABSTRACT FROM AUTHOR]

Published

2024

3. Tropical Medicine and the 'Consolidation' of the Portuguese Empire (1902–1966)

Author

Amaral, Isabel, Timmermann, Carsten, Series Editor, Worboys, Michael, Series Editor, Capocci, Mauro, editor, and Cozzoli, Daniele, editor

Published

2024

4. Investigating trypanosome infection prevalence in three districts of Northern Uganda : a study of trypanosome populations in cattle and humans

Author

Watson, Ross, Welburn, Susan, Bachmann, Till, and Picozzi, Christine

Subjects

trypanosome infection, Northern Uganda, trypanosome populations in cattle, trypanosome populations and humans, African Trypanosomiases, protozoan trypanosome parasites, tsetse flies (Glossina spp.), Animal African Trypanosomiasis, Nagana, Trypanosoma brucei gambiense, Trypanosoma brucei rhodesiense, sub-Saharan Africa, Human African Trypanosomiasis (HAT), sleeping sickness, Polymerase Chain Reaction (PCR)

Abstract

The African Trypanosomiases are a suite of diseases affecting humans and animals across sub-Saharan Africa, caused by protozoan trypanosome parasites and transmitted by tsetse flies (Glossina spp.). A number of different trypanosome species cause Animal African Trypanosomiasis (or Nagana) in wildlife and livestock, and have a major impact on animal health, agriculture and the economy. Two subspecies of African trypanosomes infect humans: Trypanosoma brucei gambiense causes a chronic disease in Central and Western Africa and Trypanosoma brucei rhodesiense causes an acute disease in Eastern and Southern Africa. Human African Trypanosomiasis (HAT), or sleeping sickness, is fatal if left untreated. Uganda is the only country to have active but geographically discrete foci of both T. b. gambiense HAT (gHAT) and T. b. rhodesiense HAT (rHAT). Recently, Northwards migration of rHAT has been observed in Uganda, associated with movements of cattle that serve as reservoirs for the zoonotic T. b. rhodesiense parasite. Convergence of the two forms of HAT in districts of Northern Uganda would impact on correct diagnosis and treatment since rHAT and gHAT require different diagnostics and treatment. The work described in this thesis explores the impact of recent cattle-based interventions for the control of zoonotic rHAT, specifically targeted at preventing the Northwards migration of T. b. rhodesiense in cattle in Uganda. Previously, a cross-sectional survey of cattle in 150 villages across 32 rHAT-affected districts of Uganda was undertaken in 2014 using the Polymerase Chain Reaction (PCR); screening determined the prevalence of human-infective T. b. rhodesiense and non-human-infective Trypanosoma brucei brucei parasites. In 2018, cattle from 20 villages in three districts of Northern Uganda were screened to determine change in trypanosome prevalence across these 20 sites. Between 2014 and 2018, overall trypanosome prevalence was observed to have significantly reduced (p < 0.0001) from 59.05% (95% CI 56.02% - 62.02%; 607/1,028) to 15.17% (95% CI 13.07% - 17.54%; 150/989), a trend observed for all individual trypanosome species. The prevalence of Trypanosoma brucei sensu lato decreased from 35.51% (95% CI 32.64% - 38.48%; 365/1,028) to 6.88% (95% CI 5.46% - 8.63%; 68/989), (p < 0.0001), and minimum prevalence of human-infective T. b. rhodesiense reduced from 4.67% (95% CI 3.54% - 6.14%; 48/1,028) to 2.12% (95% CI 1.39% - 3.22%; 21/989), (p = 0.0020). Between 2014 and 2018, the prevalence of Trypanosoma vivax decreased from 15.86% (95% CI 13.75% - 18.22%; 163/1,028) to 4.75% (95% CI 3.59% - 6.26%; 47/989), (p < 0.0001), and the prevalence of Trypanosoma congolense decreased from 31.42% (95% CI 28.66% - 34.32%; 323/1,028) to 5.46% (95% CI 4.21% - 7.06%; 54/989), (p < 0.0001). The scale (and/or direction) of change in prevalence was observed to vary at both district and village level. A human survey for HAT was also undertaken in the same 20 villages in 2018; 5,383 individuals were screened for the presence of Trypanosoma brucei sensu lato DNA using PCR. In total, 10 samples were considered positive for T. brucei sl (0.19%; 95% CI 0.10% - 0.35%) and were examined to determine the sub-species. Association between villages with PCR-positive human samples and the presence of humaninfective T. b. rhodesiense parasites was observed. Human-infective T. b. rhodesiense parasites and non-human-infective T. b. brucei parasites co-exist in the cattle population in Uganda. This thesis explores the dynamics of distribution of human- and non-human-infective T. brucei in cattle before and after treatment; in particular, the impact of interventions on the proportion of T. b. rhodesiense within the T. brucei sl population. On very few occasions does the relative prevalence of T. b. rhodesiense appear to exceed that of T. b. brucei in cattle populations, despite epidemiological theory predicting otherwise. Explanations for these observations are discussed, and progress towards elimination of Human African Trypanosomiasis as a public health problem is considered, taking into account the findings of this thesis.

Published

2023

5. Mobile Monkeys and Modified Microbes: Medical Experimentation between Metropolitan and Colonial Laboratories, 1880–ca. 1925.

Author

Sunseri, Thaddeus

Subjects

*MONKEYS, *MICROORGANISMS, *PREDATION, *LABORATORY animals, *VACCINE development, *CAPTIVITY

Abstract

Following the medical breakthroughs of Pasteur and Koch after 1880, the use of simians became pivotal to laboratory research to develop vaccines and cultivate microbes through the technique of serial passage. These innovations fueled research on multiple diseases and unleashed a demand for simians, which died easily in captivity. European and American colonial expansion facilitated a burgeoning market for laboratory animals that intensified hunting for live animals. This demand created novel opportunities for disease transfers and viral recombinations as simians of different species were confined in precarious settings. As laboratories moved into the colonies for research into a variety of diseases, notably syphilis, sleeping sickness, and malaria, the simian market was intensified. While researchers expected that colonial laboratories offered more natural environments than their metropolitan affiliates, amassing apes, people, microbes, and insects at close quarters instead created unnatural conditions that may have facilitated the spread of undetectable diseases. [ABSTRACT FROM AUTHOR]

Published

2024

6. Immune Reactions of Vector Insects to Parasites and Pathogens.

Author

Ratcliffe, Norman Arthur, Mello, Cicero Brasileiro, Castro, Helena Carla, Dyson, Paul, and Figueiredo, Marcela

Subjects

INSECT parasites, INSECT pathogens, FLEAS, LICE, SIMULIIDAE, MOSQUITOES, TSETSE-flies, TRYPANOSOMA

Abstract

This overview initially describes insect immune reactions and then brings together present knowledge of the interactions of vector insects with their invading parasites and pathogens. It is a way of introducing this Special Issue with subsequent papers presenting the latest details of these interactions in each particular group of vectors. Hopefully, this paper will fill a void in the literature since brief descriptions of vector immunity have now been brought together in one publication and could form a starting point for those interested and new to this important area. Descriptions are given on the immune reactions of mosquitoes, blackflies, sandflies, tsetse flies, lice, fleas and triatomine bugs. Cellular and humoral defences are described separately but emphasis is made on the co-operation of these processes in the completed immune response. The paper also emphasises the need for great care in extracting haemocytes for subsequent study as appreciation of their fragile nature is often overlooked with the non-sterile media, smearing techniques and excessive centrifugation sometimes used. The potential vital role of eicosanoids in the instigation of many of the immune reactions described is also discussed. Finally, the priming of the immune system, mainly in mosquitoes, is considered and one possible mechanism is presented. [ABSTRACT FROM AUTHOR]

Published

2024

7. Exploring the latest breakthroughs in rhodesain inhibitors for African trypanosomiasis.

Author

Chiba, Diego Eidy, dos Santos Fernandes, Guilherme Felipe, dos Santos, Jean Leandro, and Scarim, Cauê Benito

Abstract

Human African Trypanosomiasis is a serious public health concern, and new chemical therapeutic agents need to be developed to combat this disease. Rhodesain (RhD) inhibitors have shown promising results in medicinal chemistry, specifically against Trypanosoma brucei. These inhibitors target the cysteine protease RhD, which is essential for the survival of T. brucei. However, as the pharmaceutical industry lacks interest in these inhibitors, the development of drugs based on them is challenging. In this review, we showed the impact of RhD inhibitors on medicinal chemistry in the past 10 years (2013–2022), particularly against T. brucei, showing interesting RhD-based inhibitors, including peptidomimetic inhibitors such as Michael acceptors, cyanide groups, 3-bromoisoxazole, benzodiazepine, among others, as well as non-peptidyl inhibitors. Peptidomimetic inhibitors (5–7, 9–15, and 17) exhibited the highest potency with respect to dissociation constant (Ki) values for rhodesain, demonstrating promising activity against T. brucei targeting rhodesain. Thus, we explored recent advancements and perspectives in the context of RhD for potential treatments in sleeping sickness, highlighting its relevance in drug discovery applications. [ABSTRACT FROM AUTHOR]

Published

2024

8. Apolipoprotein-L1 (APOL1): From Sleeping Sickness to Kidney Disease

Author

Etienne Pays

Subjects

sleeping sickness, chronic kidney disease, INF-I inflammation, APOL1 risk variants, N264K variant, membrane dynamics, Cytology, QH573-671

Abstract

Apolipoprotein-L1 (APOL1) is a membrane-interacting protein induced by inflammation, which confers human resistance to infection by African trypanosomes. APOL1 kills Trypanosoma brucei through induction of apoptotic-like parasite death, but two T. brucei clones acquired resistance to APOL1, allowing them to cause sleeping sickness. An APOL1 C-terminal sequence alteration, such as occurs in natural West African variants G1 and G2, restored human resistance to these clones. However, APOL1 unfolding induced by G1 or G2 mutations enhances protein hydrophobicity, resulting in kidney podocyte dysfunctions affecting renal filtration. The mechanism involved in these dysfunctions is debated. The ability of APOL1 to generate ion pores in trypanosome intracellular membranes or in synthetic membranes was provided as an explanation. However, transmembrane insertion of APOL1 strictly depends on acidic conditions, and podocyte cytopathology mainly results from secreted APOL1 activity on the plasma membrane, which occurs under non-acidic conditions. In this review, I argue that besides inactivation of APOL3 functions in membrane dynamics (fission and fusion), APOL1 variants induce inflammation-linked podocyte toxicity not through pore formation, but through plasma membrane disturbance resulting from increased interaction with cholesterol, which enhances cation channels activity. A natural mutation in the membrane-interacting domain (N264K) abrogates variant APOL1 toxicity at the expense of slightly increased sensitivity to trypanosomes, further illustrating the continuous mutual adaptation between host and parasite.

Published

2024

9. The Janus‑faced functions of Apolipoproteins L in membrane dynamics.

Author

Pays, Etienne

Abstract

The functions of human Apolipoproteins L (APOLs) are poorly understood, but involve diverse activities like lysis of bloodstream trypanosomes and intracellular bacteria, modulation of viral infection and induction of apoptosis, autophagy, and chronic kidney disease. Based on recent work, I propose that the basic function of APOLs is the control of membrane dynamics, at least in the Golgi and mitochondrion. Together with neuronal calcium sensor-1 (NCS1) and calneuron-1 (CALN1), APOL3 controls the activity of phosphatidylinositol-4-kinase-IIIB (PI4KB), involved in both Golgi and mitochondrion membrane fssion. Whereas secreted APOL1 induces African trypanosome lysis through membrane permeabilization of the parasite mitochondrion, intracellular APOL1 conditions non-muscular myosin-2A (NM2A)-mediated transfer of PI4KB and APOL3 from the Golgi to the mitochondrion under conditions interfering with PI4KB-APOL3 interaction, such as APOL1 C-terminal variant expression or virus-induced infammatory signalling. APOL3 controls mitophagy through complementary interactions with the membrane fssion factor PI4KB and the membrane fusion factor vesicle-associated membrane protein-8 (VAMP8). In mice, the basic APOL1 and APOL3 activities could be exerted by mAPOL9 and mAPOL8, respectively. Perspectives regarding the mechanism and treatment of APOL1-related kidney disease are discussed, as well as speculations on additional APOLs functions, such as APOL6 involvement in adipocyte membrane dynamics through interaction with myosin-10 (MYH10). [ABSTRACT FROM AUTHOR]

Published

2024

10. 100 years since the publication of the suramin formula.

Author

Steverding, Dietmar and Troeberg, Linda

Abstract

Suramin was the first drug developed using the approach of medicinal chemistry by the German Bayer company in the 1910s for the treatment of human African sleeping sickness caused by the two subspecies Trypanosoma brucei gambiense and Trypanosoma brucei rhodesienese. However, the drug was politically instrumentalized by the German government in the 1920s in an attempt to regain possession of its former African colonies lost after the First World War. For this reason, the formula of suramin was kept secret for more than 10 years. Eventually, the French pharmacist Ernest Fourneau uncovered the chemical structure of suramin by reverse engineering and published the formula of the drug in 1924. During the Nazi period, suramin became the subject of colonial revisionism, and the development of the drug was portrayed in books and films to promote national socialist propaganda. Ever since its discovery, suramin has also been tested for bioactivity against numerous other infections and diseases. However, sleeping sickness caused by Trypanosoma brucei rhodesiense is the only human disease for which treatment with suramin is currently approved. [ABSTRACT FROM AUTHOR]

Published

2024

11. Polyamine Metabolism for Drug Intervention in Trypanosomatids.

Author

Pérez-Pertejo, Yolanda, García-Estrada, Carlos, Martínez-Valladares, María, Murugesan, Sankaranarayanan, Reguera, Rosa M., and Balaña-Fouce, Rafael

Subjects

POLYAMINES, AFRICAN trypanosomiasis, DRUG metabolism, CHAGAS' disease, NEGLECTED diseases, ORNITHINE decarboxylase

Abstract

Neglected tropical diseases transmitted by trypanosomatids include three major human scourges that globally affect the world's poorest people: African trypanosomiasis or sleeping sickness, American trypanosomiasis or Chagas disease and different types of leishmaniasis. Different metabolic pathways have been targeted to find antitrypanosomatid drugs, including polyamine metabolism. Since their discovery, the naturally occurring polyamines, putrescine, spermidine and spermine, have been considered important metabolites involved in cell growth. With a complex metabolism involving biosynthesis, catabolism and interconversion, the synthesis of putrescine and spermidine was targeted by thousands of compounds in an effort to produce cell growth blockade in tumor and infectious processes with limited success. However, the discovery of eflornithine (DFMO) as a curative drug against sleeping sickness encouraged researchers to develop new molecules against these diseases. Polyamine synthesis inhibitors have also provided insight into the peculiarities of this pathway between the host and the parasite, and also among different trypanosomatid species, thus allowing the search for new specific chemical entities aimed to treat these diseases and leading to the investigation of target-based scaffolds. The main molecular targets include the enzymes involved in polyamine biosynthesis (ornithine decarboxylase, S-adenosylmethionine decarboxylase and spermidine synthase), enzymes participating in their uptake from the environment, and the enzymes involved in the redox balance of the parasite. In this review, we summarize the research behind polyamine-based treatments, the current trends, and the main challenges in this field. [ABSTRACT FROM AUTHOR]

Published

2024

12. Epidemiological role of indigenous dogs in the transmission of animal and human African trypanosomiasis in Zambia : a case study of dogs from Mambwe District

Author

Lisulo, Malimba, Macleod, Ewan, and Picozzi, Kim

Subjects

African trypanosomiasis, sleeping sickness, nagana, Trypanosomes, Zambia, tsetse flies, dogs, infection in dogs

Abstract

In Zambia, African trypanosomiasis (AT) is endemic in tsetse-infested Mambwe district. Although cases are common in livestock, they are rarely reported in dogs. However, recent studies have detected trypanosomes in Zambian dogs. As a follow-up, the current research was designed to investigate what communities know about tsetse flies and AT and the role that dogs might play as trypanosome hosts. Data from the knowledge, attitudes, and practices survey and focus group discussions revealed that tsetse flies were present and respondents correctly identified and associated tsetse flies with the transmission of AT. This study also followed a cohort of 162 indigenous dogs for a period of six months. Nearly 20% of dogs were lost to follow-up, with the main causes being ill-health, predation, and euthanasia. Various African trypanosome species were detected by microscopy, serology, and PCR. Nzi traps captured a total of 3895 tsetse flies; molecular analyses found 70% of tsetse flies trypanosome positive. Blood meal analysis of 217 tsetse flies found DNA linked to humans (64.1%), wildlife (31.8%), cattle (2.3%), and dogs (1.8%). In conclusion, the results suggest that dogs acquire and maintain trypanosomes long enough for them to be potential reservoirs in the epidemiology of AT in Mambwe district. Therefore, the policy on treatment, prevention, and control of AT in Zambia needs to include dogs as important hosts.

Published

2022

13. Analysis of released peptidases and their role in the transmission biology of African trypanosomes

Author

Tettey, Mabel Deladem, Matthews, Keith, Rojas, Federico, and Philip, Nisha

Subjects

Trypanosoma brucei, sleeping sickness, tsetse fly, oligopeptides, oligopeptidase B, metallocarboxypeptidase 1, peptidase 1, enhanced stumpy transformation

Abstract

The protozoan parasite, Trypanosoma brucei causes devastating diseases in both humans and animals in sub-Saharan Africa. They live extracellularly and undergo a complex life cycle involving the mammalian host and the tsetse fly vector. Two developmental forms of the parasite exist in the bloodstream of the mammalian host; the long proliferative slender forms and the cell-cycle arrested stumpy forms. The slender forms differentiate into stumpy forms upon reaching a density threshold through a quorum-sensing like mechanism. During a trypanosome infection, the parasites release peptidases into the bloodstream of their mammalian host which accumulates as parasitaemia increases. These released peptidases hydrolyse their respective host protein substrates resulting in the generation of oligopeptides. At peak parasitaemia, these oligopeptides accumulate and trigger the slender forms to differentiate into non-proliferative stumpy forms. This helps regulate the parasitaemia in the host as well as prepare the parasites for development in the tsetse fly vector. Two peptidases whose activities can provoke the quorum-sensing response have been identified previously in our lab. In this study, proteins secreted/released by the parasites in the bloodstream and early during differentiation to the tsetse fly midgut procyclic forms were analysed by detailed mass spectrometry. This identified twelve peptidases, belonging to different classes of peptidases, enriched at these developmental stages of the parasite. Each peptidase was then validated for its release from parasites using individually epitope-tagged cell lines. Systematic ectopic overexpression and gene knockout using CRISPR/Cas9 of each peptidase gene and their analysis in vivo in mice revealed that two of the peptidases, oligopeptidase B and metallocarboxypeptidase 1, significantly contribute to the generation of the trypanosome's quorum-sensing signal. Further analysis of peptidases enriched in the secretome of parasites differentiating from stumpy forms to procyclic forms in tsetse flies, however, showed that these peptidases may not be involved in establishing infection in the midgut of the flies but may assist proventricular infection. This work analysed for the first time the contribution of a set of released peptidases by T. brucei involved in the important differentiation from proliferative slender forms into the cell-cycle arrested stumpy forms.

Published

2022

14. Potential applicability of the importation risk index for predicting the risk of rarely imported infectious diseases

Author

Kyung-Duk Min, Sun-Young Kim, Yoon Young Cho, Seyoung Kim, and Joon-Sup Yeom

Subjects

Rabies, Sleeping sickness, Disease importation, Public aspects of medicine, RA1-1270

Abstract

Abstract Background There have been many prediction studies for imported infectious diseases, employing air-travel volume or the importation risk (IR) index, which is the product of travel-volume and disease burden in the source countries, as major predictors. However, there is a lack of studies validating the predictability of the variables especially for infectious diseases that have rarely been reported. In this study, we analyzed the prediction performance of the IR index and air-travel volume to predict disease importation. Methods Rabies and African trypanosomiasis were used as target diseases. The list of rabies and African trypanosomiasis importation events, annual air-travel volume between two specific countries, and incidence of rabies and African trypanosomiasis in the source countries were obtained from various databases. Results Logistic regression analysis showed that IR index was significantly associated with rabies importation risk (p value

Published

2023

15. The Colonial Origins of Mass Prophylaxis as a Public Health Panacea

Author

Velmet, Aro, Moses, Julia, Series Editor, Lengwiler, Martin, Series Editor, Andersen, Margaret Cook, editor, and Byrnes, Melissa K., editor

Published

2023

16. Population Knowledge and Practices and the Prevalence of Trypanosomes Circulating in Domestic Animals in Three Active Human African Trypanosomiasis Foci in the Republic of Congo

Author

Irina Bemba, Arsene Lenga, Herman Parfait Awono-Ambene, and Christophe Antonio-Nkondjio

Subjects

animal reservoir, knowledge, practices, sleeping sickness, Microbiology, QR1-502

Abstract

Human African Trypanosomiasis (HAT) is still endemic in the Republic of Congo. Although the incidence of cases has significantly decreased over years, the disease still persists in some active foci. Factors contributing to the maintenance of the disease such as the existence of an animal reservoir or population knowledge are still not well known. It is in this context that a study focusing on the knowledge and practices of the population with regard to HAT as well as on the prevalence of trypanosomes infecting animals was undertaken in three active HAT foci in the Republic of Congo. The study was performed using field surveys conducted from November 2019 to June 2021. Domestic animal blood was examined by microscopy and PCR to detect the presence of trypanosomes. A structured questionnaire was administered to the population to assess their knowledge and practices concerning HAT in these endemic foci. More than half of the animals examined were found to be infected with trypanosomes (51.22%). The main trypanosome species infecting animals were Trypanosoma congolense savannah (67.2%) and Trypanosoma brucei (s.l.) (32.8%). No trypanosomes infecting humans were detected. Concerning household surveys, more than half of the respondents (52.9%) were fully aware of the mode of transmission and symptoms of the disease. The majority of people preferred to wear clothes covering the whole body and to use locally made soap as repellents to protect themselves from tsetse fly bites. This study suggests frequent circulation of animal trypanosomes in domestic animals and the use of personal measures to protect against tsetse fly bites. Updating information on the HAT animal reservoir and population knowledge alongside regular monitoring of the tsetse fly populations and the use of traps to control tsetse flies are crucial to drive efforts towards the elimination of gHAT in the Republic of Congo.

Published

2023

17. Potential applicability of the importation risk index for predicting the risk of rarely imported infectious diseases.

Author

Min, Kyung-Duk, Kim, Sun-Young, Cho, Yoon Young, Kim, Seyoung, and Yeom, Joon-Sup

Subjects

*COMMUNICABLE diseases, *AFRICAN trypanosomiasis, *RECEIVER operating characteristic curves, *LOGISTIC regression analysis, *NON-communicable diseases, *RABIES

Abstract

Background: There have been many prediction studies for imported infectious diseases, employing air-travel volume or the importation risk (IR) index, which is the product of travel-volume and disease burden in the source countries, as major predictors. However, there is a lack of studies validating the predictability of the variables especially for infectious diseases that have rarely been reported. In this study, we analyzed the prediction performance of the IR index and air-travel volume to predict disease importation. Methods: Rabies and African trypanosomiasis were used as target diseases. The list of rabies and African trypanosomiasis importation events, annual air-travel volume between two specific countries, and incidence of rabies and African trypanosomiasis in the source countries were obtained from various databases. Results: Logistic regression analysis showed that IR index was significantly associated with rabies importation risk (p value < 0.001), but the association with African trypanosomiasis was not significant (p value = 0.923). The univariable logistic regression models showed reasonable prediction performance for rabies (area under curve for Receiver operating characteristic [AUC] = 0.734) but poor performance for African trypanosomiasis (AUC = 0.641). Conclusions: Our study found that the IR index cannot be generally applicable for predicting rare importation events. However, it showed the potential utility of the IR index by suggesting acceptable performance in rabies models. Further studies are recommended to explore the generalizability of the IR index's applicability and to propose disease-specific prediction models. [ABSTRACT FROM AUTHOR]

Published

2023

18. Population Knowledge and Practices and the Prevalence of Trypanosomes Circulating in Domestic Animals in Three Active Human African Trypanosomiasis Foci in the Republic of Congo.

Author

Bemba, Irina, Lenga, Arsene, Awono-Ambene, Herman Parfait, and Antonio-Nkondjio, Christophe

Subjects

*AFRICAN trypanosomiasis, *DOMESTIC animals, *TSETSE-flies, *ANIMAL populations, *FIELD research

Abstract

Human African Trypanosomiasis (HAT) is still endemic in the Republic of Congo. Although the incidence of cases has significantly decreased over years, the disease still persists in some active foci. Factors contributing to the maintenance of the disease such as the existence of an animal reservoir or population knowledge are still not well known. It is in this context that a study focusing on the knowledge and practices of the population with regard to HAT as well as on the prevalence of trypanosomes infecting animals was undertaken in three active HAT foci in the Republic of Congo. The study was performed using field surveys conducted from November 2019 to June 2021. Domestic animal blood was examined by microscopy and PCR to detect the presence of trypanosomes. A structured questionnaire was administered to the population to assess their knowledge and practices concerning HAT in these endemic foci. More than half of the animals examined were found to be infected with trypanosomes (51.22%). The main trypanosome species infecting animals were Trypanosoma congolense savannah (67.2%) and Trypanosoma brucei (s.l.) (32.8%). No trypanosomes infecting humans were detected. Concerning household surveys, more than half of the respondents (52.9%) were fully aware of the mode of transmission and symptoms of the disease. The majority of people preferred to wear clothes covering the whole body and to use locally made soap as repellents to protect themselves from tsetse fly bites. This study suggests frequent circulation of animal trypanosomes in domestic animals and the use of personal measures to protect against tsetse fly bites. Updating information on the HAT animal reservoir and population knowledge alongside regular monitoring of the tsetse fly populations and the use of traps to control tsetse flies are crucial to drive efforts towards the elimination of gHAT in the Republic of Congo. [ABSTRACT FROM AUTHOR]

Published

2023

19. The synthesis of novel fluorinated heterocycles and their antitrypanosomal activity

Author

Tawell, Hugh

Subjects

547, fluorine, benzofurans, quinazolines, Sleeping Sickness, benzothiophenes, Neglected Tropical Diseases

Abstract

A range of fluorinated heterocyclic scaffolds: quinazolines, benzofurans, benzothiophenes, benzothiazoles, indoles, and phenoxazines have been synthesised in this project using a tandem SNArring closing strategy employing perfluoroarenes as starting materials. A range of novel compounds including quinazolines, benzofurans and many more have been characterised by IR spectroscopy, ¹H/¹⁹F/¹³C NMR spectroscopy, elemental analysis, HRMS, and eight X-ray crystal structures have been determined. The novel fluorinated compounds accessed in this work were screened against T b rhod, T cruzi and L. don. Ax am the causative agents of three neglected tropical diseases: sleeping sickness, Chagas disease and leishmaniasis respectively. Of the compounds screened quinazoline 129 presented itself as a lead compound with IC50 values of 0.84 µM and 0.22 µM against T b rhod and T cruzi respectively. Subsequently synthetic reactions involving further SNAr reaction, or functional group modification have been carried out to explore the chemical space of the lead compound to build up SAR data. An improved synthesis of fluorinated quinazolines involving condensation of fluoroaryl nitriles or ketones with amidines has been developed. Microwave irradiation has been shown to be a viable method to obtain this scaffold in a more efficient and greener synthesis. Mechanistic studies have been undertaken to ascertain the mechanism of the deacylation of polyfluoroaryl aldehydes, ketones and esters identified as a competing side reaction during attempts to access benzofurans, indoles and quinazolines under basic reaction conditions. NMR spectroscopic experiments involving deuterium labelling established that in the presence of base deacylation occurs with generation of an aryl anion, a short-lived intermediate which subsequently reacts with moisture forming protonated fluoroarene products. The findings are in agreement with earlier studies on related perfluoroaryl systems. Additionally, a mechanistic study has been carried out on the ring closing reaction of 2-benzamidophenylsulfanyl fluoroarenes which forms fluorinated phenothiazine scaffold to ascertain whether a Smiles rearrangement occurs before ring closure. Experiments to follow the course of the reaction by ¹⁹F NMR spectroscopy were undertaken, and the determination of the X-ray crystal structure of 367 confirmed that Smiles rearrangement had occurred before ring closure.

Published

2021

20. Structural Modelling of Platelet Activating Factor Acetyl Hydrolase in Leishmania donovani, Trypanosoma cruzi, and Trypanosoma brucei: Implications on Therapeutics for Leishmaniasis, Chagas Disease, and Sleeping Sickness

Author

Goswami A, Koley T, Rajan MV, Madhuri P, Upadhyay N, Das U, Kumar M, Ethayathulla AS, and Hariprasad G

Subjects

platelet activating factor acetyl hydrolase, protozoa, drug target, potent inhibitor, leishmaniasis, leishmania donovani, chagas disease, trypanosoma cruzi, sleeping sickness, and trypanosoma brucei, drug efficacy, Infectious and parasitic diseases, RC109-216

Abstract

Arunima Goswami, Tirthankar Koley, Madhan Vishal Rajan, Pathak Madhuri, Neelam Upadhyay, Uddipan Das, Manoj Kumar, Abdul Samath Ethayathulla, Gururao Hariprasad Department of Biophysics, All India Institute of Medical Sciences, New Delhi, 110029, IndiaCorrespondence: Gururao Hariprasad, Tel +91-11-26594240, Fax +91-11-26588663, Email dr.hariprasadg@gmail.comPurpose: Leishmaniasis, Chagas disease, and sleeping sickness are caused by protozoa Leishmania donovani, Trypanosoma cruzi, and Trypanosoma brucei, respectively. Platelet activating factor acetyl hydrolase (PAF-AH) is an inflammatory protein implicated in pathogenesis of these three infections, thereby making them attractive drug targets.Methods: PAF-AH sequences were retrieved from UniProt and aligned using Clustal Omega. Homologous models of parasitic proteins were built based on crystal structure of human PAF-AH and validated using PROCHECK server. Volumes of substrate-binding channel were calculated using the ProteinsPlus program. High throughput virtual screening using Glide program in Schrodinger was done with ZINC drug library against parasitic PAF-AH enzymes. Complexes with best hits were energy-minimized and subjected to 100 ns molecular dynamic simulation and analyzed.Results: PAF-AH enzyme sequences from protozoa Leishmania donovani, Trypanosoma cruzi, Trypanosoma brucei, and human have a minimum of 34% sequence similarity with each other. Corresponding structures show a globular conformation consisting of twisted β-pleated sheets, flanked by α-helices on either side. Catalytic triad of serine-histidine-aspartate is conserved. Substrate-binding channel residues are conserved to an extent, with a lower channel volume in human as compared to target enzymes. Drug screening resulted in identification of three molecules that had better affinities than the substrate to the target enzymes. These molecules fulfill Lipinski’s rules for drug likeness and also bind with less affinity to the human counterpart, thereby establishing a high selective index.Conclusion: Structures of PAF-AH from protozoan parasites and humans belong to the same family of enzymes and have a similar three-dimensional fold. However, they show subtle variations in residue composition, secondary structure composition, substrate-binding channel volume, and conformational stability. These differences result in certain specific molecules being potent inhibitors of the target enzymes while simultaneously having weaker binding to human homologue.Keywords: platelet activating factor acetyl hydrolase, protozoa, drug target, potent inhibitor, leishmaniasis, Leishmania donovani, Chagas disease, Trypanosoma cruzi, sleeping sickness, Trypanosoma brucei, drug efficacy

Published

2023

21. Tackling Sleeping Sickness: Current and Promising Therapeutics and Treatment Strategies.

Author

Jamabo, Miebaka, Mahlalela, Maduma, Edkins, Adrienne L., and Boshoff, Aileen

Subjects

*AFRICAN trypanosomiasis, *DRUG discovery, *NEGLECTED diseases, *THERAPEUTICS, *ANTIGENIC variation, *PLAGUE

Abstract

Human African trypanosomiasis is a neglected tropical disease caused by the extracellular protozoan parasite Trypanosoma brucei, and targeted for eradication by 2030. The COVID-19 pandemic contributed to the lengthening of the proposed time frame for eliminating human African trypanosomiasis as control programs were interrupted. Armed with extensive antigenic variation and the depletion of the B cell population during an infectious cycle, attempts to develop a vaccine have remained unachievable. With the absence of a vaccine, control of the disease has relied heavily on intensive screening measures and the use of drugs. The chemotherapeutics previously available for disease management were plagued by issues such as toxicity, resistance, and difficulty in administration. The approval of the latest and first oral drug, fexinidazole, is a major chemotherapeutic achievement for the treatment of human African trypanosomiasis in the past few decades. Timely and accurate diagnosis is essential for effective treatment, while poor compliance and resistance remain outstanding challenges. Drug discovery is on-going, and herein we review the recent advances in anti-trypanosomal drug discovery, including novel potential drug targets. The numerous challenges associated with disease eradication will also be addressed. [ABSTRACT FROM AUTHOR]

Published

2023

22. Covalent Inhibitors for Neglected Diseases: An Exploration of Novel Therapeutic Options.

Author

Alves, Erick Tavares Marcelino, Pernichelle, Filipe Gomes, Nascimento, Lucas Adriano, Ferreira, Glaucio Monteiro, and Ferreira, Elizabeth Igne

Subjects

*NEGLECTED diseases, *AFRICAN trypanosomiasis, *CHAGAS' disease, *SOCIAL impact, *MALARIA

Abstract

Neglected diseases, primarily found in tropical regions of the world, present a significant challenge for impoverished populations. Currently, there are 20 diseases considered neglected, which greatly impact the health of affected populations and result in difficult-to-control social and economic consequences. Unfortunately, for the majority of these diseases, there are few or no drugs available for patient treatment, and the few drugs that do exist often lack adequate safety and efficacy. As a result, there is a pressing need to discover and design new drugs to address these neglected diseases. This requires the identification of different targets and interactions to be studied. In recent years, there has been a growing focus on studying enzyme covalent inhibitors as a potential treatment for neglected diseases. In this review, we will explore examples of how these inhibitors have been used to target Human African Trypanosomiasis, Chagas disease, and Malaria, highlighting some of the most promising results so far. Ultimately, this review aims to inspire medicinal chemists to pursue the development of new drug candidates for these neglected diseases, and to encourage greater investment in research in this area. [ABSTRACT FROM AUTHOR]

Published

2023

23. Effects of Synthetic Ligustrazine-Based Chalcone Derivatives on Trypanosoma brucei brucei and Leishmania spp. Promastigotes.

Author

Alkhaldi, Abdulsalam A. M.

Subjects

*CHALCONE, *TRYPANOSOMA brucei, *AMINO ketones, *LEISHMANIA, *METHYL ketones, *TRYPANOSOMIASIS

Abstract

Current medication therapy for leishmaniasis and trypanosomiasis remains a major challenge due to its limited efficacy, significant adverse effects, and inaccessibility. Consequently, locating affordable and effective medications is a pressing concern. Because of their easy-to-understand structure and high functionalization potential, chalcones are promising candidates for use as bioactive agents. Thirteen synthetic ligustrazine-containing chalcones were evaluated for their ability to inhibit the growth of leishmaniasis and trypanosomiasis in etiologic agents. The tetramethylpyrazine (TMP) analogue ligustrazine was chosen as the central moiety for the synthesis of these chalcone compounds. The most effective compound (EC50 = 2.59 µM) was the chalcone derivative 2c, which featured a pyrazin-2-yl amino on the ketone ring and a methyl substitution. Multiple actions were observed for certain derivatives, including 1c, 2a–c, 4b, and 5b, against all strains tested. Eflornithine served as a positive control, and three ligustrazine-based chalcone derivatives, including 1c, 2c, and 4b, had a higher relative potency. Compounds 1c and 2c are particularly efficacious; even more potent than the positive control, they are therefore promising candidates for the treatment of trypanosomiasis and leishmaniasis. [ABSTRACT FROM AUTHOR]

Published

2023

24. Antitrypanosomal activity of Argemone mexicana extract and fractions in the animal model of Trypanosoma brucei brucei infection

Author

Chukwu Ifeoma L., Ugwu Malachy C., Iroha Ifeanyi R., Mbagwu Ikechukwu S., Okafor Ugochukwu U., and Ajaghaku Amara A.

Subjects

argemone mexicana, trypanosomiasis, sleeping sickness, parasitemia, Veterinary medicine, SF600-1100

Abstract

This study investigated the antitrypanosomal activity of Argemone mexicana extract and fractions in the animal model of Trypanosoma brucei brucei infection.

Published

2022

25. Human African Trypanosomiasis (Sleeping Sickness)—Epidemiology, Clinical Manifestations, Diagnosis, Treatment, and Prevention

Author

Ortiz-Martínez, Yeimer, Kouamé, Menan Gérard, Bongomin, Felix, Lakoh, Sulaiman, and Henao-Martínez, Andrés F.

Published

2023

26. Progress in Research on African Trypanosomes: Highlights from an Exceptional Decade

Author

Hutchinson, Sebastian, Calvo-Alvarez, Estefania, Tsagmo, Jean Marc, Lemos, Moara, Travaillé, Christelle, Rotureau, Brice, Bastin, Philippe, Steinbüchel, Alexander, Series Editor, and de Souza, Wanderley, editor

Published

2022

27. Expeditions into ‘Central Man’: Imperial Romance, Tropical Medicine, and Heroic Masculinity

Author

Taylor-Pirie, Emilie, Ruston, Sharon, Series Editor, Jenkins, Alice, Series Editor, Howell, Jessica, Series Editor, and Taylor-Pirie, Emilie

Published

2022

28. Detecting the Diagnosis: Parasitology, Crime Fiction, and the British Medical Gaze

Author

Taylor-Pirie, Emilie, Ruston, Sharon, Series Editor, Jenkins, Alice, Series Editor, Howell, Jessica, Series Editor, and Taylor-Pirie, Emilie

Published

2022

29. Imperial Aetiologies: Violence, Sleeping Sickness, and the Colonial Encounter

Author

Taylor-Pirie, Emilie, Ruston, Sharon, Series Editor, Jenkins, Alice, Series Editor, Howell, Jessica, Series Editor, and Taylor-Pirie, Emilie

Published

2022

30. Introduction: Stories of Science and Empire

Author

Taylor-Pirie, Emilie, Ruston, Sharon, Series Editor, Jenkins, Alice, Series Editor, Howell, Jessica, Series Editor, and Taylor-Pirie, Emilie

Published

2022

31. Further Investigations of Nitroheterocyclic Compounds as Potential Antikinetoplastid Drug Candidates.

Author

García-Estrada, Carlos, Pérez-Pertejo, Yolanda, Domínguez-Asenjo, Bárbara, Holanda, Vanderlan Nogueira, Murugesan, Sankaranarayanan, Martínez-Valladares, María, Balaña-Fouce, Rafael, and Reguera, Rosa M.

Subjects

*AFRICAN trypanosomiasis, *CHAGAS' disease, *NEGLECTED diseases, *DRUG discovery, *DRUG therapy

Abstract

Due to the lack of specific vaccines, management of the trypanosomatid-caused neglected tropical diseases (sleeping sickness, Chagas disease and leishmaniasis) relies exclusively on pharmacological treatments. Current drugs against them are scarce, old and exhibit disadvantages, such as adverse effects, parenteral administration, chemical instability and high costs which are often unaffordable for endemic low-income countries. Discoveries of new pharmacological entities for the treatment of these diseases are scarce, since most of the big pharmaceutical companies find this market unattractive. In order to fill the pipeline of compounds and replace existing ones, highly translatable drug screening platforms have been developed in the last two decades. Thousands of molecules have been tested, including nitroheterocyclic compounds, such as benznidazole and nifurtimox, which had already provided potent and effective effects against Chagas disease. More recently, fexinidazole has been added as a new drug against African trypanosomiasis. Despite the success of nitroheterocycles, they had been discarded from drug discovery campaigns due to their mutagenic potential, but now they represent a promising source of inspiration for oral drugs that can replace those currently on the market. The examples provided by the trypanocidal activity of fexinidazole and the promising efficacy of the derivative DNDi-0690 against leishmaniasis seem to open a new window of opportunity for these compounds that were discovered in the 1960s. In this review, we show the current uses of nitroheterocycles and the novel derived molecules that are being synthesized against these neglected diseases. [ABSTRACT FROM AUTHOR]

Published

2023

32. Phytochemical Screening, GC-MS Analysis, and Evaluating In Vivo Antitrypanosomal Effects of a Methanolic Extract of Garcinia kola Nuts on Rats.

Author

Rufa'i, Fatihu Ahmad, Baecker, Daniel, and Mukhtar, Muhammad Dauda

Subjects

GARCINIA, GAS chromatography/Mass spectrometry (GC-MS), RATS, TRYPANOSOMA brucei, THERAPEUTICS, GANGRENE

Abstract

Trypanosomiasis is a serious disease that affects both humans and animals, causing social and economic losses. Efforts to find new therapeutic approaches are warranted to improve treatment options. Therefore, the purpose of this communication includes the phytochemical screening of a methanolic extract of Garcinia kola nuts and the in vivo evaluation of its biological activity against rats infected with Trypanosoma brucei brucei and treated with 4 different concentrations of the extract (0.01, 0.1, 1, and 10 mg/kg). Treatment with suramin served as a positive control, while the negative control received no drug. Since the general toxicity of the extract could be ruled out, efficacy was evaluated based on physiological changes, such as induction of trypanosome parasitemia, influence on body temperature, and body weight. Survival was assessed during this study. Physical parameters, behavioral characteristics, and various hematological indices were also monitored. Based on the (patho)physiological and behavioral parameters (e.g., no parasitemia, no increase in body temperature, an increase in body weight, no loss of condition, no alopecia, and no gangrene), the efficacy of the extract was evident, which was also confirmed by 100% survival, while in the negative control, all rats died during the observation period. Since overall very similar results were obtained as a result of treatment with the established suramin, the in vivo antitrypanosomal activity of a methanolic extract of G. kola nuts on rats can be demonstrated in this communication. This opens the way, for example, for further development of drug formulations based on this methanolic extract. [ABSTRACT FROM AUTHOR]

Published

2023

33. Polyamine Metabolism for Drug Intervention in Trypanosomatids

Author

Yolanda Pérez-Pertejo, Carlos García-Estrada, María Martínez-Valladares, Sankaranarayanan Murugesan, Rosa M. Reguera, and Rafael Balaña-Fouce

Subjects

neglected tropical diseases, trypanosomatids, sleeping sickness, Chagas disease, leishmaniasis, polyamines, Medicine

Abstract

Neglected tropical diseases transmitted by trypanosomatids include three major human scourges that globally affect the world’s poorest people: African trypanosomiasis or sleeping sickness, American trypanosomiasis or Chagas disease and different types of leishmaniasis. Different metabolic pathways have been targeted to find antitrypanosomatid drugs, including polyamine metabolism. Since their discovery, the naturally occurring polyamines, putrescine, spermidine and spermine, have been considered important metabolites involved in cell growth. With a complex metabolism involving biosynthesis, catabolism and interconversion, the synthesis of putrescine and spermidine was targeted by thousands of compounds in an effort to produce cell growth blockade in tumor and infectious processes with limited success. However, the discovery of eflornithine (DFMO) as a curative drug against sleeping sickness encouraged researchers to develop new molecules against these diseases. Polyamine synthesis inhibitors have also provided insight into the peculiarities of this pathway between the host and the parasite, and also among different trypanosomatid species, thus allowing the search for new specific chemical entities aimed to treat these diseases and leading to the investigation of target-based scaffolds. The main molecular targets include the enzymes involved in polyamine biosynthesis (ornithine decarboxylase, S-adenosylmethionine decarboxylase and spermidine synthase), enzymes participating in their uptake from the environment, and the enzymes involved in the redox balance of the parasite. In this review, we summarize the research behind polyamine-based treatments, the current trends, and the main challenges in this field.

Published

2024

34. A doença de Chagas: repercussões de uma descoberta científica brasileira em Portugal, 1909-1924

Author

Ewerton Luiz Figueiredo Moura da Silva

Subjects

history of medicine, Chagas disease, sleeping sickness, trypanosomiasis, tropical diseases, Carlos Chagas, History (General), D1-2009

Abstract

Currently, Chagas disease, or human American trypanosomiasis, affects around 900 people in Portugal, mostly Brazilian immigrants, the main foreign population residing in the country. This article presents a historical inquiry on the first receptions of the Brazilian discovery of Chagas disease in Portugal, a country that had scientists interested in the study of tropical diseases, namely sleeping sickness, or African trypanosomiasis, which affected epidemic in the African colonies of Angola and the island of Príncipe. The time frame of this study is limited between 1909, the date of Carlos Chagas' scientific discovery, and 1924, the year in which the already internationally renowed Brazilian physician, then traveling through Europe, was invited by Portuguese colleagues to give a lecture on American trypanosomiasis in Lisbon. In methodological terms, this article was written based on the work of scrutinizing publications in scientific periodicals, inaugural theses defended in medical schools and Portuguese press news.

Published

2022

35. Re-screening and preliminary in vitro evaluation of resorcinol based Hsp90 inhibitors for potential protocidal activity.

Author

Umumararungu, Théoneste, Isaacs, Michelle, Hoppe, Heinrich C., Goosen, Eleonora D., and Khanye, Setshaba D.

Subjects

*RESORCINOL, *HEAT shock proteins, *TRYPANOSOMA brucei, *PLASMODIUM falciparum

Abstract

This study explored a series of resorcinol derivatives originally identified as heat shock protein 90 inhibitors for activity against protozoan parasites. The repurposing of this series revealed that some of these compounds are active against chloroquine-sensitive Plasmodium falciparum (3D7) and Trypanosoma brucei brucei strains with IC50 values below 10 μM without obvious cytotoxic effects against human cervix adenocarcinoma (HeLa) cells at 25 μM. [ABSTRACT FROM AUTHOR]

Published

2023

36. Fexinidazole for Human African Trypanosomiasis, the Fruit of a Successful Public-Private Partnership.

Author

Bernhard, Sonja, Kaiser, Marcel, Burri, Christian, and Mäser, Pascal

Subjects

AFRICAN trypanosomiasis, PUBLIC-private sector cooperation, DRUG discovery, TRYPANOSOMA brucei, TRANSMISSION zeros

Abstract

After 100 years of chemotherapy with impractical and toxic drugs, an oral cure for human African trypanosomiasis (HAT) is available: Fexinidazole. In this case, we review the history of drug discovery for HAT with special emphasis on the discovery, pre-clinical development, and operational challenges of the clinical trials of fexinidazole. The screening of the Drugs for Neglected Diseases initiative (DNDi) HAT-library by the Swiss TPH had singled out fexinidazole, originally developed by Hoechst (now Sanofi), as the most promising of a series of over 800 nitroimidazoles and related molecules. In cell culture, fexinidazole has an IC50 of around 1 µM against Trypanosoma brucei and is more than 100-fold less toxic to mammalian cells. In the mouse model, fexinidazole cures both the first, haemolymphatic, and the second, meningoencephalitic stage of the infection, the latter at 100 mg/kg twice daily for 5 days. In patients, the clinical trials managed by DNDi and supported by Swiss TPH mainly conducted in the Democratic Republic of the Congo demonstrated that oral fexinidazole is safe and effective for use against first- and early second-stage sleeping sickness. Based on the positive opinion issued by the European Medicines Agency in 2018, the WHO has released new interim guidelines for the treatment of HAT including fexinidazole as the new therapy for first-stage and non-severe second-stage sleeping sickness caused by Trypanosoma brucei gambiense (gHAT). This greatly facilitates the diagnosis and treatment algorithm for gHAT, increasing the attainable coverage and paving the way towards the envisaged goal of zero transmission by 2030. [ABSTRACT FROM AUTHOR]

Published

2022

37. Plasma Neuron-Specific Enolase is not a reliable biomarker for staging Trypanosoma brucei rhodesiense sleeping sickness patients

Author

Charles D. Kato, Dorothy Twesigye, Vincent P. Alibu, Ann Nanteza, Julius Nsubuga, Claire M. Mugasa, and Enock Matovu

Subjects

Human African trypanosomiasis, Sleeping sickness, Biomarker, Neuron-Specific Enolase, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective Currently, the only available staging criterion for T. b. rhodesiense requires a lumber puncture to collect and later examine cerebrospinal fluid (CSF). This study examined the potential of plasma Neuron-Specific Enolase (NSE) in discriminating between early and late-stage patients. Results When median NSE levels were compared between early and late-stage patients, results showed a significant (P 0.9) in NSE levels were observed between early-stage patients (300 ng/mL) and controls (454 ng/mL). We used Receiver Operator Characteristic (ROC) curves to explore the likelihood of using plasma NSE as a potential stage biomarker in discriminating between early and late-stage HAT patients. Our results showed that NSE demonstrated an area under the curve (AUC) of 0.702 (95% CI 0.583–0.830). A high staging accuracy for NSE was obtained by using a cutoff of > 346.5 ng/mL with a sensitivity of 68.6% (95% CI 55–79.7%) and a specificity of 93.3% (95% CI 70.2–99.7%). Although our results demonstrate that plasma NSE is upregulated in T. b. rhodesiense sleeping sickness patients, its value in discriminating between late and early-stage patients is limited. However, future studies could consider improving its specificity by combining it with other identified plasma biomarkers.

Published

2022

38. Activity of the genus Zanthoxylum against diseases caused by protozoa: A systematic review

Author

Juliana Correa-Barbosa, Daniele Ferreira Sodré, Pedro Henrique Costa Nascimento, and Maria Fâni Dolabela

Subjects

Malaria, Leishmaniasis, Chagas disease, sleeping sickness, Zanthoxylum, Therapeutics. Pharmacology, RM1-950

Abstract

Neglected diseases (NDs) are treated with a less varied range of drugs, with high cost and toxicity, which makes the search for therapeutic alternatives important. In this context, plants, such as those from the genus Zanthoxylum, can be promising due to active substances in their composition. This study evaluates the potential of species from this genus to treat NDs. Initially, a protocol was developed to carry out a systematic review approved by Prospero (CRD42020200438). The databases PubMed, BVS, Scopus, Science Direct, and Web of Science were used with the following keywords: “zanthoxylum,” “xanthoxylums,” “fagaras,” “leishmaniasis,” “chagas disease,” “malaria,” and “African trypanosomiasis.” Two independent evaluators analyzed the title and abstract of 166 articles, and 122 were excluded due to duplicity or for not meeting the inclusion criteria. From the 44 selected articles, results of in vitro/in vivo tests were extracted. In vitro studies showed that Z. rhoifolium, through the alkaloid nitidine, was active against Plasmodium (IC50 10 and >30, respectively). For Chagas disease, the promising species (IC50

Published

2023

39. 2-(Nitroaryl)-5-Substituted-1,3,4-Thiadiazole Derivatives with Antiprotozoal Activities: In Vitro and In Vivo Study.

Author

Mousavi, Alireza, Foroumadi, Parham, Emamgholipour, Zahra, Mäser, Pascal, Kaiser, Marcel, and Foroumadi, Alireza

Subjects

*ANTIPARASITIC agents, *THIADIAZOLES, *DRUG discovery, *NEGLECTED diseases, *TRYPANOSOMA brucei, *PARASITIC diseases, *LEISHMANIA major

Abstract

Nitro-containing compounds are a well-known class of anti-infective agents, especially in the field of anti-parasitic drug discovery. HAT or sleeping sickness is a neglected tropical disease caused by a protozoan parasite, Trypanosoma brucei. Following the approval of fexinidazole as the first oral treatment for both stages of T. b. gambiense HAT, there is an increased interest in developing new nitro-containing compounds against parasitic diseases. In our previous projects, we synthesized several megazole derivatives that presented high activity against Leishmania major promastigotes. Here, we screened and evaluated their trypanocidal activity. Most of the compounds showed submicromolar IC50 against the BSF form of T. b. rhodesiense (STIB 900). To the best of our knowledge, compound 18c is one of the most potent nitro-containing agents reported against HAT in vitro. Compound 18g revealed an acceptable cure rate in the acute mouse model of HAT, accompanied with noteworthy in vitro activity against T. brucei, T. cruzi, and L. donovani. Taken together, these results suggest that these compounds are promising candidates to evaluate their pharmacokinetic and biological profiles in the future. [ABSTRACT FROM AUTHOR]

Published

2022

40. The History of the ABC Proteins in Human Trypanosomiasis Pathogens.

Author

da Costa, Kelli Monteiro, Valente, Raphael do Carmo, Fonseca, Leonardo Marques da, Freire-de-Lima, Leonardo, Previato, Jose Osvaldo, and Mendonça-Previato, Lucia

Abstract

Human trypanosomiasis affects nearly eight million people worldwide, causing great economic and social impact, mainly in endemic areas. T. cruzi and T. brucei are protozoan parasites that present efficient mechanisms of immune system evasion, leading to disease chronification. Currently, there is no vaccine, and chemotherapy is effective only in the absence of severe clinical manifestations. Nevertheless, resistant phenotypes to chemotherapy have been described in protozoan parasites, associated with cross-resistance to other chemically unrelated drugs. Multidrug resistance is multifactorial, involving: (i) drug entry, (ii) activation, (iii) metabolism and (iv) efflux pathways. In this context, ABC transporters, initially discovered in resistant tumor cells, have drawn attention in protozoan parasites, owing to their ability to decrease drug accumulation, thus mitigating their toxic effects. The discovery of these transporters in the Trypanosomatidae family started in the 1990s; however, few members were described and functionally characterized. This review contains a brief history of the main ABC transporters involved in resistance that propelled their investigation in Trypanosoma species, the main efflux modulators, as well as ABC genes described in T. cruzi and T. brucei according to the nomenclature HUGO. We hope to convey the importance that ABC transporters play in parasite physiology and chemotherapy resistance. [ABSTRACT FROM AUTHOR]

Published

2022

41. Drugs for Vector-Borne Protozoal Diseases in a One Health Scenario. A European Perspective.

Author

Cordeiro da Silva A, Calogeropoulou T, Costi MP, and Alunda JM

Subjects

Humans, Animals, Europe epidemiology, Vector Borne Diseases prevention & control, Vector Borne Diseases epidemiology, Protozoan Infections prevention & control, Protozoan Infections epidemiology, Protozoan Infections drug therapy, One Health, Antiprotozoal Agents pharmacology, Antiprotozoal Agents therapeutic use

Abstract

Vector-borne protozoal diseases (VBPD) represent an enormous health and economic burden, particularly in low- and middle-income countries. Their control requires integrated approaches that consider not only therapeutic interventions for affected human and animal populations but also preventive tools. Environmental contamination can lead to therapeutic ineffectiveness. Effective intervention must consider in-depth knowledge of the environmental factors that regulate the exposure, transmission and pathogenicity of VBPD within a One Health approach. In recent decades, the incidence and prevalence of VBPD have been substantially reduced in many regions of the world, although there are still hot spots and emerging epidemiological cycles. Except for a partially protective vaccine against malaria, vaccination is not available for any other human VBPD, and therefore epidemiological control and chemotherapy are the main control tools. Current therapeutics have several drawbacks, including reduced efficacy, toxicity and high price of safer formulations. In addition, the industrial pipeline is limited, and no therapeutic breakthroughs are expected. Integrated control of VBPD requires multitarget control systems adapted to the disease and region. In this scenario, harmonized surveillance systems, accurate reporting and increased public and private investment will ensure more rational use of the few available and new drugs.

Published

2024

42. Trypanosomiasis and Filariasis

Author

Votypka, Jan, Brzonova, Jana, Petrzelkova, Klara J., Knauf, Sascha, editor, and Jones-Engel, Lisa, editor

Published

2020

43. African Sleeping Sickness: African Trypanosomiasis

Author

Domachowske, Joseph, Suryadevara, Manika, Domachowske, Joseph, and Suryadevara, Manika

Published

2020

44. Structural insights into innate immunity against African trypanosomes

Author

Lane-Serff, Harriet and Higgins, Matthew

Subjects

616.9, Human African Trypanosomiasis, Sleeping sickness, Strucutral biology

Abstract

The haptoglobin-haemoglobin receptor (HpHbR) is expressed by the African try- panosome, T. brucei, whilst in the bloodstream of the mammalian host. This allows ac- quisition of haem, but also results in uptake of trypanolytic factor 1, a mediator of in- nate immunity against non-human African trypanosomes. Here, the structure of HpHbR in complex with its ligand, haptoglobin-haemoglobin (HpHb), is presented, revealing an elongated binding site along the membrane-distal half of the receptor. A ~50° kink allows the simultaneous binding of two receptors to one dimeric HpHb, increasing the efficiency of ligand uptake whilst also increasing binding site exposure within the densely packed cell surface. The possibility of targeting this receptor with antibody-drug conjugates is ex- plored. The characterisation of the unexpected interaction between T. congolense HpHbR and its previously unknown ligand, haemoglobin, is also presented. This receptor is iden- tified as an epimastigote-specific protein expressed whilst the trypanosome occupies the mouthparts of the tsetse fly vector. An evolutionary pathway of the receptor is proposed, describing how the receptor has changed to adapt to a role as a bloodstream form-specific protein in T. brucei. Apolipoprotein L1 (ApoL1) is the pore-forming component of the trypanolytic factors. An expression and purification protocol for ApoL1 is presented here, and the functionality of the protein established. Initial attempts to characterise the pores and structure of ApoL1 are described.

Published

2017

45. Covalent Inhibitors for Neglected Diseases: An Exploration of Novel Therapeutic Options

Author

Erick Tavares Marcelino Alves, Filipe Gomes Pernichelle, Lucas Adriano Nascimento, Glaucio Monteiro Ferreira, and Elizabeth Igne Ferreira

Subjects

covalent target enzyme inhibitors, sleeping sickness, Chagas disease, Malaria, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Neglected diseases, primarily found in tropical regions of the world, present a significant challenge for impoverished populations. Currently, there are 20 diseases considered neglected, which greatly impact the health of affected populations and result in difficult-to-control social and economic consequences. Unfortunately, for the majority of these diseases, there are few or no drugs available for patient treatment, and the few drugs that do exist often lack adequate safety and efficacy. As a result, there is a pressing need to discover and design new drugs to address these neglected diseases. This requires the identification of different targets and interactions to be studied. In recent years, there has been a growing focus on studying enzyme covalent inhibitors as a potential treatment for neglected diseases. In this review, we will explore examples of how these inhibitors have been used to target Human African Trypanosomiasis, Chagas disease, and Malaria, highlighting some of the most promising results so far. Ultimately, this review aims to inspire medicinal chemists to pursue the development of new drug candidates for these neglected diseases, and to encourage greater investment in research in this area.

Published

2023

46. Effects of Synthetic Ligustrazine-Based Chalcone Derivatives on Trypanosoma brucei brucei and Leishmania spp. Promastigotes

Author

Abdulsalam A. M. Alkhaldi

Subjects

trypanosomiasis, Leishmania spp., sleeping sickness, chalcones, ketones, toxicity, Organic chemistry, QD241-441

Abstract

Current medication therapy for leishmaniasis and trypanosomiasis remains a major challenge due to its limited efficacy, significant adverse effects, and inaccessibility. Consequently, locating affordable and effective medications is a pressing concern. Because of their easy-to-understand structure and high functionalization potential, chalcones are promising candidates for use as bioactive agents. Thirteen synthetic ligustrazine-containing chalcones were evaluated for their ability to inhibit the growth of leishmaniasis and trypanosomiasis in etiologic agents. The tetramethylpyrazine (TMP) analogue ligustrazine was chosen as the central moiety for the synthesis of these chalcone compounds. The most effective compound (EC50 = 2.59 µM) was the chalcone derivative 2c, which featured a pyrazin-2-yl amino on the ketone ring and a methyl substitution. Multiple actions were observed for certain derivatives, including 1c, 2a–c, 4b, and 5b, against all strains tested. Eflornithine served as a positive control, and three ligustrazine-based chalcone derivatives, including 1c, 2c, and 4b, had a higher relative potency. Compounds 1c and 2c are particularly efficacious; even more potent than the positive control, they are therefore promising candidates for the treatment of trypanosomiasis and leishmaniasis.

Published

2023

47. Development of Reduced Peptide Bond Pseudopeptide Michael Acceptors for the Treatment of Human African Trypanosomiasis.

Author

Previti, Santo, Ettari, Roberta, Di Chio, Carla, Ravichandran, Rahul, Bogacz, Marta, Hellmich, Ute A., Schirmeister, Tanja, Cosconati, Sandro, and Zappalà, Maria

Subjects

*AFRICAN trypanosomiasis, *PEPTIDE bonds, *PROTOZOAN diseases, *ENDEMIC diseases, *MOLECULAR docking, *LEISHMANIASIS

Abstract

Human African Trypanosomiasis (HAT) is an endemic protozoan disease widespread in the sub-Saharan region that is caused by T. b. gambiense and T. b. rhodesiense. The development of molecules targeting rhodesain, the main cysteine protease of T. b. rhodesiense, has led to a panel of inhibitors endowed with micro/sub-micromolar activity towards the protozoa. However, whilst impressive binding affinity against rhodesain has been observed, the limited selectivity towards the target still remains a hard challenge for the development of antitrypanosomal agents. In this paper, we report the synthesis, biological evaluation, as well as docking studies of a series of reduced peptide bond pseudopeptide Michael acceptors (SPR10–SPR19) as potential anti-HAT agents. The new molecules show Ki values in the low-micro/sub-micromolar range against rhodesain, coupled with k2nd values between 1314 and 6950 M−1 min−1. With a few exceptions, an appreciable selectivity over human cathepsin L was observed. In in vitro assays against T. b. brucei cultures, SPR16 and SPR18 exhibited single-digit micromolar activity against the protozoa, comparable to those reported for very potent rhodesain inhibitors, while no significant cytotoxicity up to 70 µM towards mammalian cells was observed. The discrepancy between rhodesain inhibition and the antitrypanosomal effect could suggest additional mechanisms of action. The biological characterization of peptide inhibitor SPR34 highlights the essential role played by the reduced bond for the antitrypanosomal effect. Overall, this series of molecules could represent the starting point for further investigations of reduced peptide bond-containing analogs as potential anti-HAT agents [ABSTRACT FROM AUTHOR]

Published

2022

48. Researchers from Clemson University Discuss Research in Sleeping Sickness (Cholesterol Efflux Decreases TLR4-Target Gene Expression in Cultured Macrophages Exposed to T. brucei Ghosts).

Abstract

A recent report from Clemson University discusses research on sleeping sickness caused by the parasite Trypanosoma brucei. The study focused on the impact of T. brucei "ghosts," which are non-viable parasites, on macrophages. The researchers found that exposure to T. brucei ghosts increased the protein content of TLR4, a receptor involved in the immune response, in lipid rafts of macrophages. However, when the macrophages were treated with cholesterol acceptors before exposure to T. brucei ghosts, the expression of pro-inflammatory genes decreased. These findings suggest that promoting cholesterol efflux weakens the pro-inflammatory response to T. brucei infection by disrupting lipid rafts in macrophages. [Extracted from the article]

Published

2024

49. Costs and Outcomes of Integrated Human African Trypanosomiasis Surveillance System Using Rapid Diagnostic Tests, Democratic Republic of the Congo

Author

Rian Snijders, Alain Fukinsia, Yves Claeys, Epco Hasker, Alain Mpanya, Erick Miaka, Filip Meheus, and Marleen Boelaert

Subjects

human African trypanosomiasis, sleeping sickness, surveillance, diagnosis, integration, primary health services, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

We integrated sleeping sickness case detection into the primary healthcare system in 2 health districts in the Democratic Republic of the Congo. We replaced a less field-friendly serologic test with a rapid diagnostic test, which was followed up by human African trypanosomiasis microscopic testing, and used a mixed costing methodology to estimate costs from a healthcare provider perspective. We screened a total of 18,225 persons and identified 27 new cases. Average financial cost (i.e., actual expenditures) was US $6.70/person screened and $4,464/case diagnosed and treated. Average economic cost (i.e., value of resources foregone that could have been used for other purposes) was $9.40/person screened and $6,138/case diagnosed and treated. Our study shows that integrating sleeping sickness surveillance into the primary healthcare system is feasible and highlights challenges in completing the diagnostic referral process and developing a context-adapted diagnostic algorithm for the large-scale implementation of this strategy in a sustainable and low-cost manner.

Published

2021

50. Phytochemical Screening, GC-MS Analysis, and Evaluating In Vivo Antitrypanosomal Effects of a Methanolic Extract of Garcinia kola Nuts on Rats

Author

Fatihu Ahmad Rufa’i, Daniel Baecker, and Muhammad Dauda Mukhtar

Subjects

Garcinia kola, methanolic extract, sleeping sickness, suramin, Trypanosoma brucei brucei, trypanosomiasis, Therapeutics. Pharmacology, RM1-950

Abstract

Trypanosomiasis is a serious disease that affects both humans and animals, causing social and economic losses. Efforts to find new therapeutic approaches are warranted to improve treatment options. Therefore, the purpose of this communication includes the phytochemical screening of a methanolic extract of Garcinia kola nuts and the in vivo evaluation of its biological activity against rats infected with Trypanosoma brucei brucei and treated with 4 different concentrations of the extract (0.01, 0.1, 1, and 10 mg/kg). Treatment with suramin served as a positive control, while the negative control received no drug. Since the general toxicity of the extract could be ruled out, efficacy was evaluated based on physiological changes, such as induction of trypanosome parasitemia, influence on body temperature, and body weight. Survival was assessed during this study. Physical parameters, behavioral characteristics, and various hematological indices were also monitored. Based on the (patho)physiological and behavioral parameters (e.g., no parasitemia, no increase in body temperature, an increase in body weight, no loss of condition, no alopecia, and no gangrene), the efficacy of the extract was evident, which was also confirmed by 100% survival, while in the negative control, all rats died during the observation period. Since overall very similar results were obtained as a result of treatment with the established suramin, the in vivo antitrypanosomal activity of a methanolic extract of G. kola nuts on rats can be demonstrated in this communication. This opens the way, for example, for further development of drug formulations based on this methanolic extract.

Published

2023