Philippe Neau scite author profile

The gene encoding the urea transporter of human erythrocytes (HUT11 clone) has been cloned recently (Olives, B., Neau, P., Bailly, P., Hediger, M. A., Rousselet, G., Cartron, J. P., and Ripoche, P. (1994) J. Biol. Chem. 269, 31649-31652). Now, this gene has been assigned to chromosome 18q12-q21 by in situ hybridization, as also found for the Kidd (Jk) blood group locus. In coupled transcription-translation assays, the HUT11 cDNA directed the synthesis of a 36-kDa protein which was immunoprecipitated by a human anti-Jk3 antibody produced by immunized Jk(a-b-) donors whose red cells lack Kidd antigens. The anti-Jk3 antibody also immunoprecipitated a protein material of 46-60 kDa from all red cell membranes, except those from Jk(a-b-) cells. After N-glycanase digestion the 46-60-kDa component was reduced to 36 kDa. A rabbit antibody raised against the predicted NH2-terminal amino-acids of the HUT11 protein reacted on immunoblots with a 46-60-kDa component present in all human erythrocytes except those from Jk(a-b-) individuals. Jk(a-b-) red cells lack the Kidd/urea transport protein and have a selective defect of the urea transport capacity, but a normal water permeability and aquaporin-associated Colton blood group antigens. These findings indicate that the erythrocyte urea transporter is encoded by the Kidd locus and may have implications for the biology of urea transporters and their tissue-specific regulation.

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Innovative Partnerships for the Elimination of Human African Trypanosomiasis and the Development of Fexinidazole

Neau

Hänel

Lameyre

et al. 2020

TropicalMed

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Human African Trypanosomiasis (HAT or sleeping sickness) is a life-threatening neglected tropical disease that is endemic in 36 sub-Saharan African countries. Until recently, treatment options were limited and hampered by unsatisfactory efficacy, toxicity, and long and cumbersome administration regimens, compounded by infrastructure inadequacies in the remote rural regions worst affected by the disease. Increased funding and awareness of HAT over the past two decades has led to a steady decline in reported cases (<1000 in 2018). Recent drug development strategies have resulted in development of the first all-oral treatment for HAT, fexinidazole. Fexinidazole received European Medicines Agency positive scientific opinion in 2018 and is now incorporated into the WHO interim guidelines as one of the first-line treatments for HAT, allowing lumbar puncture to become non-systematic. Here, we highlight the role of global collaborations in the effort to control HAT and develop new treatments. The long-standing collaboration between the WHO, Sanofi and the Drugs for Neglected Diseases initiative (Geneva, Switzerland) was instrumental for achieving the control and treatment development goals in HAT, whilst at the same time ensuring that efforts were led by national authorities and control programs to leave a legacy of highly trained healthcare workers and improved research and health infrastructure.

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Cloning and functional expression of a urea transporter from human bone marrow cells.

Olivès¹,

Neau²,

Bailly³

et al. 1994

Journal of Biological Chemistry

192

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Urea derivatives as tools for studying the urea-facilitated transport system

Martial¹,

Neau²,

Degeilh³

et al. 1993

Pflugers Arch.

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The effects of urea structural analogues on the urea-facilitated diffusion system were examined in human red cell membranes (pink ghosts) and in antidiuretic hormone(ADH)-stimulated frog urinary bladder epithelia. In both tissues, urea permeability (P(urea)) was dramatically but reversibly inhibited by a number of urea analogues, such as 1-(3,4-dichlorophenyl)-2-thiourea (DCPTU). This urea derivative reduced the urea flux in a dose-dependent manner (90% inhibition of P(urea) at 0.5 mM concentration of DCPTU). With the aim of obtaining irreversible markers of red cell and urinary bladder urea transport systems, urea derivatives were modified by addition of an azido residue (N3) and preliminary experiments of photoaffinity labelling were carried out. Two synthetic urea derivatives: 1-(3-azido-4-chlorophenyl)-2-thiourea (ACPTU) and 1-(3-azido-4-chlorophenyl)-3-methyl-2-thiourea (Me-ACPTU) were shown to be very potent inhibitors of P(urea) when used in the absence of light, with IC50 values 60.3 microM and 31.6 microM respectively, as measured in frog urinary bladder. Both these molecules appeared to bind covalently to the urea carrier in both frog urinary bladder and human pink red cell ghosts, when illuminated in the presence of the tissue: the urea flux, which fell to 30-70% of the value obtained in the presence of ADH after inhibitor addition, remained low after the preparation had been illuminated for 30 min and the inhibitor removed. These results provide an interesting approach to the urea carrier analysis, particularly to the urea or urea analogue binding site on the transport protein.

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Synthesis of N‐(3‐azido‐4‐chlorophenyl)‐N′‐[³H‐methyl] thiourea, an efficient photoaffinity probe for the urea carrier

Lamotte¹,

Degeilh²,

Neau³

et al. 1994

Labelled Comp Radiopharmac

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Philippe Neau

Kidd Blood Group and Urea Transport Function of Human Erythrocytes Are Carried by the Same Protein

Innovative Partnerships for the Elimination of Human African Trypanosomiasis and the Development of Fexinidazole

Cloning and functional expression of a urea transporter from human bone marrow cells.

Urea derivatives as tools for studying the urea-facilitated transport system

Synthesis of N‐(3‐azido‐4‐chlorophenyl)‐N′‐[³H‐methyl] thiourea, an efficient photoaffinity probe for the urea carrier

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Philippe Neau

Kidd Blood Group and Urea Transport Function of Human Erythrocytes Are Carried by the Same Protein

Innovative Partnerships for the Elimination of Human African Trypanosomiasis and the Development of Fexinidazole

Cloning and functional expression of a urea transporter from human bone marrow cells.

Urea derivatives as tools for studying the urea-facilitated transport system

Synthesis of N‐(3‐azido‐4‐chlorophenyl)‐N′‐[3H‐methyl] thiourea, an efficient photoaffinity probe for the urea carrier

Contact Info

Product

Resources

About

Synthesis of N‐(3‐azido‐4‐chlorophenyl)‐N′‐[³H‐methyl] thiourea, an efficient photoaffinity probe for the urea carrier