A variety of pediatric drugs are currently in use for treating infants/children afflicted with different diseases/disorders. These drugs, while serving their therapeutic purposes, may exert adverse effects. Two important questions therefore are: i) whether the developing infants/children are equipped with mechanism(s) for protection against the adverse effects of pediatric drugs, and ii) how the emergence of such protection mechanism(s), during the infant/child development, may help alleviate these adverse effects. In humans and other vertebrates, sulfation as mediated by the SULTs is known to play a major role in the detoxification of xenobiotics. Of particular interest in this proposed research is the role that sulfation may play in influencing the susceptibility of the developing infants/children t the adverse effects of pediatric drugs. In our recent studies using the zebrafish as a model, we demonstrated that different SULTs exhibited distinct patterns of expression at different stages during embryogenesis on to larval development. Moreover, like human SULTs, zebrafish SULTs displayed differential sulfating activities toward a number of drugs tested. In view of the crucial role of these enzymes in the detoxification of xenobiotics, we hypothesize that the susceptibility of the developing infants/children, and likewise zebrafish embryos/larvae, to any potential adverse effects of drugs may be dependent on the ontogeny and tissue/organ-specific expression of relevant drug-sulfating SULTs. To verify this hypothesis, selected pediatric drugs that are commonly used for treating cough/cold and allergy/asthma symptoms in infants/children will be tested. These drugs, especially when improperly administered, may cause adverse effects including death in extreme cases. The proposed research will address three issues that are pertinent to the above-mentioned hypothesis, namely the drug- sulfating capacity of the SULTs, their ontogeny and tissue/organ distribution, and the involvement of relevant drug-sulfating SULTs in protection against the adverse effects of drugs.
The specific aims are: 1. To analyze the sulfating activity of our established repertoires of human and zebrafish SULTs toward selected pediatric drugs, and to clarify the ontogeny and tissue/organ-specific expression of relevant human and zebrafish drug-sulfating SULTs;and 2. To verify the involvement of relevant drug-sulfating SULTs in protection against the adverse effects of selected pediatric drugs during zebrafish development. Successful completion of this project will reveal how the ontogeny and tissue/organ-specific expression of relevant drug-sulfating SULTs may influence the susceptibility to any potential adverse effects of the tested pediatric drugs during development. With better understanding about the ontogeny of human drug-sulfating SULTs and their substrate specificity and catalytic efficiency, the information obtained may eventually become useful in helping to choose particular types and doses of the pediatric drugs for different age groups of infants/ children, thereby alleviating potential adverse effects that may occur at different stages during development.

Public Health Relevance

The proposed studies are designed to obtain fundamental information concerning the molecular mechanisms underlying the role of the cytosolic sulfotransferases (SULTs) in protection against the adverse effects of pediatric drugs during the developmental process. The information obtained may also help establish the zebrafish as a useful system for scrutinizing the adverse effects of drugs in general.

Agency
National Institute of Health (NIH)
Institute
Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD)
Type
Small Research Grants (R03)
Project #
5R03HD071146-02
Application #
8554775
Study Section
Special Emphasis Panel (ZRG1-CB-L (55))
Program Officer
Giacoia, George
Project Start
2012-09-30
Project End
2014-08-31
Budget Start
2013-09-01
Budget End
2014-08-31
Support Year
2
Fiscal Year
2013
Total Cost
$71,080
Indirect Cost
$23,630
Name
University of Toledo
Department
Pharmacology
Type
Schools of Pharmacy
DUNS #
807418939
City
Toledo
State
OH
Country
United States
Zip Code
43614
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El Daibani, Amal A; Xi, Yuecheng; Luo, Lijun et al. (2018) Sulfation of hesperetin, naringenin and apigenin by the human cytosolic sulfotransferases: a comprehensive analysis. Nat Prod Res :1-7
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Bairam, Ahsan F; Rasool, Mohammed I; Alherz, Fatemah A et al. (2018) Effects of human SULT1A3/SULT1A4 genetic polymorphisms on the sulfation of acetaminophen and opioid drugs by the cytosolic sulfotransferase SULT1A3. Arch Biochem Biophys 648:44-52
Bairam, Ahsan F; Rasool, Mohammed I; Alherz, Fatemah A et al. (2018) Sulfation of catecholamines and serotonin by SULT1A3 allozymes. Biochem Pharmacol 151:104-113
Kurogi, Katsuhisa; Sakakibara, Yoichi; Suiko, Masahito et al. (2017) Sulfation of vitamin D3 -related compounds-identification and characterization of the responsible human cytosolic sulfotransferases. FEBS Lett 591:2417-2425
Kurogi, Katsuhisa; Yoshihama, Maki; Horton, Austin et al. (2017) Identification and characterization of 5?-cyprinol-sulfating cytosolic sulfotransferases (Sults) in the zebrafish (Danio rerio). J Steroid Biochem Mol Biol 174:120-127
Hashiguchi, Takuyu; Kurogi, Katsuhisa; Shimohira, Takehiko et al. (2017) ?4-3-ketosteroids as a new class of substrates for the cytosolic sulfotransferases. Biochim Biophys Acta Gen Subj 1861:2883-2890
Shimohira, Takehiko; Kurogi, Katsuhisa; Hashiguchi, Takuyu et al. (2017) Regioselective production of sulfated polyphenols using human cytosolic sulfotransferase-expressing Escherichia coli cells. J Biosci Bioeng 124:84-90
Zhang, Lingtian; Kurogi, Katsuhisa; Liu, Ming-Yih et al. (2016) Sulfation of benzyl alcohol by the human cytosolic sulfotransferases (SULTs): a systematic analysis. J Appl Toxicol 36:1090-4

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