Purine metabolism in Giardia lamblia was investigated by monitoring incorporation of radiolabeled precursors into purine nucleotides in the log-phase trophozoites cultivated in vitro in axenic media and incubated in buffered saline glucose. The lack of incorporation of formate, glycine, hypoxanthine, inosine, and xanthine into the nucleotide pool suggests the absence of de novo purine nucleotide synthesis and the inability to form IMP as the precursor of AMP and GMP in G. lamblia. Only adenine, adenosine, guanine, and guanosine were incorporated. Further analysis of the labeled nucleotides by HPLC indicated that adenine and adenosine are converted only to adenine nucleotides whereas guanine and guanosine are only incorporated into guanine nucleotides. There is no competition of incorporation between adenine/adenosine and guanine/guanosine, and there is no interconversion between adenine and guanine nucleotides. Results from analyzing [5'-3H]guanosine incorporation indicate that the ribose moiety is not incorporated with the guanine base. Assays of purine salvage enzymic activities in the crude extracts of G. lamblia revealed the presence of only four major enzymes; adenosine and guanosine hydrolases and adenine and guanine phosphoribosyl transferases. Apparently, G. lamblia has an exceedingly simple purine salvage system; it converts adenosine and guanosine to corresponding purine bases and then forms AMP and GMP by the actions of corresponding purine phosphoribosyl transferases. The guanine phosphoribosyl transferase in G. lamblia is interesting because it does not recognize either hypoxanthine or xanthine as substrate. It thus must have a unique substrate specificity and may be regarded as a potential target to attack as a rational approach to chemotherapeutic control of giardiasis.
Avermectin B1a stimulates high-affinity binding of [3H]-gamma-aminobutyric acid (GABA) to receptors in washed rat brain membranes. Scatchard analysis of the data indicates that the drug does not significantly alter the apparent dissociation constant of GABA binding, but increases the detectable number of binding sites from 3.2 to 5.1 pmol/mg protein, (+)-Bicuculline completely blocks control and avermectin B1a-stimulated GABA binding, whereas picrotoxin antagonizes specifically the avermectin B1a-stimulated GABA binding. The avermectin B1a-stimulated GABA binding is also chloride ion-dependent, whereas GABA binding in the control is not. These observations suggest that the mechanism of avermectin B1a stimulation of GABA binding may involve the chloride ion channel.
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