dc.description.abstract |
During last three decades, a large number of toxins have been purified and characterized
from several marine organisms. Among different classes of marine toxins, the jellyfish
(coelentrate), shel1fish (mollusks) and sea-snake (Hydrophiidae) toxins are considered
dangerous to humans due to their mild to severe clinical complications in victim. The
toxins purified from these animals are broadly grouped as cytotoxins and biotoxins.
This research project was the aim of to identify venomous and poisonous marine animals
suspected to induce cytotoxicological reaction in living system and to isolate and
characterize the cytotoxic compounds causing these reactions. To achieve both objectives
a regular survey of envenomation and poisoning on coastal areas of Karachi was
performed on regular basis folJowed by location and co1lection of species responsible for
the clinical manifestations. Later, venoms and poisons from these species and their toxic
compounds were isolated and characterized using specific biochemical and biological
assay techniques.
TI1e survey of envenomation incidences occurred due to jelly-fish, shellfish and sea-snake
species has been done with the help of questionnaires. Site selected for the survey includes
all recreational beaches such as Clifton, Hawksbay, Sandspit and Paradise point. The
intensity of jellyfish envenomation incidences have been recorded both in beach visitors
and community residents and a total of 1558 (mild and severe) cases have been recorded
which includes 1183 beach visitors and 369 residents of coastal community. The survey
record indicates that Physalia species was the most abundant jellyfish species on Karachi
coastal areas and implicated in 98 percent of the cases. All victims exhibited typical signs
and symptoms such as erythema, whealing, papular eruption, spasms etc. A few cases of
shellfish poisoning (33 in number) and non-fatal sea snake envenomation cases (21 cases)
were also recorded. The clinical signs and symptoms recorded are nausia, vomiting.
diarrehea, watery stool and muscular cramps.
The major biochemical constituent of Physalia venoum and shellfish tissue were in a the
range of total protein 48.45 to 52.34%, salt soluble protein 11.00 - 18.42% total lipd 9.8
to 11.6% and 11.2 to 13.5% respectively.
The lethality of toxic extracts were noted and found variable values for LD50 and LD,oo
doses in albino rats and mice. Animals received lethal doses ofjellyfish extract died after
exhibiting periodical appearence of convulsions, ataxia, paralysis of hind limb and
withdrawal. Physalia venum induced marked respiratory distress, tachycardia, ataxia, and
in some cases coughing like symptom with spir of blood from nose were recorded. Death
occured within 12 hours.
General cytotoxicity data showed a marked increases in lactate dehydrogenase, creatinine
phospholcinase, serum glutamate oxaloacetate transaminease, serum glutamate pyruvate
transaminase, the protein and lipid content of serum significantly decrease inserum
glucose. These finding suggest that Physa/ia venom is the most potent cytotoxic agent.
A marked histopathological changes noted in vital organ of guinea pigs after receiving
venoms and toxic extracts. Fatty changes, necrosis and hemorrhage ocuurd in all animals.
In addition, branchoneumenia and glomerulonephritis with tubular degeneration was also
obsereved.
Standard chromatographic methods, namely, gel filteration, ion exchange and high
performance liquid chromatography were used for the purification of cytotoxic
compounds. TI1e recovery range is from 78% to 82%. Different gel matrices were
employed for various toxins. Crude toxins were· resolved into a number of peaks, and it
depends upon the type of matrix and eluent used. Each peak was tested for lethality and
cytotoxicity, and peaks with these activities were further purified with HPLC.
Polyacrylamide gel electrophorasis (PAGE) was used to check the purity of compounds
and for the determination of their molecular masses. SOS-PAGE pattern of crude
Physalia venom exhibited several bands in the molecular weight range of 200.00 Kda to
20. 00 Kda, whereas H. lapemoides venom exhiited heterogenous bands in the molecular
weight range of 80.0 k.Da to 5.0 kDa. From the crude venom of Physalia (PrCV) one
highly lethal and cytotoxic peak was obtained (Pp-CLTx-VI). Similarly, shellfish venom
was purified and the Jethal and cytotoxic activity was confirmed in peak II which was
subsequently purified into one compound (PvHTxIIE). TI1e sea snake venom was finally
resolved into three purified peaks (HI-CTx-VIIA, HI-CTXVIIB, HI-CTx-VIID).
111e isolated fractions togather with crude venoms and toxins were characterized on the
basis of physical and chemical stability, hemolytic, hemorragic, and neurotoxic activities,
lethality and cytotoxicity and histopathological changes in vital organs of test animals.
Changes in serum hepatic perameters and time dependent comparission of verapamil
potentiation were also monitored in test animals. Veraparnil potentiation experiments
showed that this drug significantly reduce the elevated hepatic parameters. Similarly,
veraparnil (Ca++ ion antagonist) and 3, 4, DAP (K+ ion antagonist) were used to
antagonized the changes in ion flux within the tissue of the vital organs due to the
cytotoxic activity of venoms and toxins. In all cases, ion disbalance was marked in lung
and kidney tissues. TI1e increased Ca++ ion influx was antagonized significantly by
verapami1 and K+ ion eflux was also antagonised to the complete restoration of normal
levels of these ions.
This study reveals that potent cytotoxicity is associated with marine organisms. I t would
be interesting to elucidate the structure of isolated compounds in future. |
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