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Query: UMLS:C0042961 (
volvulus
)
4,305
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Parasite-specific putrescine-N-acetyltransferase and polyamine oxidase, both involved in the reversed pathway of polyamine metabolism, were demonstrated for Ascaris suum and Onchocerca
volvulus
. Berenil-treatment was found to be correlated with accumulation of polyamines, especially spermine, obviously due to blockaded polyamine interconversion. Furthermore it was shown that added spermine to the culture medium led to the death of worms. These specificities might be exploited for chemotherapy of filarial infections. Polyamines are widely distributed in the nature. They are found in higher and lower eucaryotes and in procaryotes as well as in viruses (Tabor and Tabor, 1984). During the last years there have been many approaches to examine the role of polyamines in cell growth and differentiation in vertebrates (Tabor and Tabor, 1984; Pegg, 1986). The polyamine metabolism of parasites also has attracted increasing interest, e.g. in African trypanosomes the initial enzyme of polyamine synthesis -
ornithine decarboxylase
- has been exploited as a target for chemotherapy by using DFMO (DL alpha-difluoromethylornithine) (Bacchi et al., 1980; Bacchi et al., 1983; Fairlamb et al., 1985; Giffin et al., 1986). The polyamine metabolism of filaria and other helminths is still a neglected area of research, although there are reports about distribution pattern of polyamines and some peculiarities of polyamine metabolism in filarial worms (Srivastava et al., 1980; Wittich et al., 1987; Walter, 1988). DFMO and MGBG (methylglyoxal bis-(guanylhydrazone], both of which are potent inhibitors of polyamine synthesis in mammals, do not significantly effect the viability of filarial worms (Wittich et al., 1987).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:The polyamine metabolism of filarial worms as chemotherapeutic target. 307 47
The human and animal filarial parasites Onchocerca
volvulus
, Dirofilaria immitis, Brugia patei and Litomosoides carinii contained low levels of putrescine but much higher levels of spermidine and spermine as estimated by ion-pair high pressure liquid chromatography; N-acetylated polyamines were present only in minute amounts. Enzyme activities of
ornithine decarboxylase
(EC 4.1.1.17) and arginine decarboxylase (EC 4.1.1.19), respectively, were not detectable. Experiments carried out with O.
volvulus
and D. immitis demonstrated the uptake and bioconversion of labeled polyamines. There is evidence for the existence of a complete reverse pathway generating putrescine from spermidine and spermine, respectively, in both worms. N-Acetylating enzyme activities were detected in 100,000 X g preparations of homogenates from D. immitis which were capable to acetylate putrescine, spermidine and spermine. Long term incubation of the worms in the presence of labeled polyamines resulted in the excretion of putrescine and N-acetylputrescine.
...
PMID:Polyamine metabolism in filarial worms. 362 68
In eukaryotes, the key player in polyamine metabolism is the
ornithine decarboxylase
(
ODC
) that catalyses the first and rate limiting step in cellular polyamine synthesis. The half life of
ODC
is strictly regulated by the antizyme (AZ), which promotes its degradation. Older reports on the polyamine situation in filarial parasites indicate a lack of ornithine decarboxylation activity and an increased uptake of polyamines. Our in silico analysis of the Brugia malayi genome revealed only an
ODC
-like protein that lacks essential residues. Consequently, the recombinant protein had no enzymatic
ODC
activity. Furthermore, only
ODC
-like genes were found in the available draft genomes of other filarial parasites. In this
ODC
-free scenario, we set out to investigate the AZ of O.
volvulus
(OvAZ). The expression of the recombinant protein allowed us to analyse the localization of OvAZ in different O.
volvulus
stages as well as to identify it as target for the human humoral immune response. Strong immunostaining was observed in the outer zone of the uterine epithelium as well as in the uterus lumen around the periphery of the developing parasite, indicating a potential role of the OvAZ in the control of polyamine levels during embryonic development. By employing a novel in vivo method using Caenorhabditis elegans, we postulate that the OvAZ enters the secretory pathway. Even though the ODCs are absent in filarial parasites, OvAZ has the ability to bind to various ODCs, thereby demonstrating the functionality of the conserved AZ-binding domains. Finally, pull-down assays show an interaction between B. malayi AZ and the B. malayi
ODC
-like protein, indicating that the B. malayi
ODC
-like protein might function as an AZI. Taken together, our results suggest that filarial species do not possess the
ODC
while retaining the
ODC
-regulatory proteins AZ and AZI. It is tempting to speculate that both proteins are retained for the regulation of polyamine transport systems.
...
PMID:Filarial parasites possess an antizyme but lack a functional ornithine decarboxylase. 2347 93
