Department of Zoology and Environmental Biology, Faculty o f Science , Lagos State University, Nigeria
Received: November 29, 2018; Published: December 12, 2018
1!important;”>*Corresponding author: Okwa O Omolade, Department of Zoology and Environmental Biology, Nigeria
Host Parasite Relationships
Parasitism is an association between two different species of organisms, where only one partner which is always the parasite derives benefits metabolically. The other partner is the host and gets nothing in return but harm, damage or death <1>. A parasite lives in a particular way called parasitism. Parasitism as a one-sided partnership in which the host receives no benefits but instead some degree of harm, or death is an ingratitude and is synonymous the parasite committing matricide! An ‘ideal’ parasite must not even dare kill its host because the death of the host means the death of the parasite. An “ideal” parasite does not even exist because the slightest effects of all parasites are detrimental to their hosts <2>. Caullery <3> considers that “parasitism is a case of balance of power; the parasites and the host form a functional balance system which is placed in opposition to the external environment. Both the parasite and host make the best of a bad job. The host reacts to keep the parasite away or to a minimum while the parasite attempts to live as un-obstructively as possible, despite all the host’s reactions which threatens the parasites’ existence.
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Parasites Metabolic Dependency on the Hosts Could be in Several Ways:
a) Nutritional: As in Flukes, tapeworms such as Diphyllobothrium latum
b) Developmental stimuli: As in P. intergerrinum and Opalina ranarum , (parasites of frog),
c) Digestive Enzymes: As in tapeworms such as Taenia sp and Echinococus sp
d) Shelter: As in endoparasites such as Plasmodium sp , Entamoeba sp, Ascaris sp e.t.c
e) Movement: As in ectoparasites such as lice, fleas, ticks and mites
f) Control of maturation: As in P. intergerrinum and Opalina ranarum
Parasitism has prolonged effects on Both Hosts and Parasites Such as:
a) Parasites have mechanisms for locating their host like chemotaxis and active penetration such as Schistosome cercariae and hookworm larvae
b) Transmission of parasites to the new host may be associated with daily or circadian rhythms such as cell division and migrating patterns <4>.
c) Parasites have to survive in their host using several mechanisms like encystations, transformation or tail loss as in schistosome cercariae.
d) Parasites have surfaces that play important roles in nutrition. There is usually a major nutritional interface with the host such as the digestive-absorptive epithelium in platyhelminthes which has enormous increase in surface area by development of folds and microvilli such as tubercules, spines and pores of flukes and tapeworms <5>.
e) Damage to host can be as a result of immune response (immuno-pathology). This can be more damaging than the infection itself <5,6>.
f) Parasites exhibit host specificity and are adapted to infect specific species but cannot invade certain species or strains of host, for example, the malaria parasite Plasmodium yoelli can alone affect mice while Plasmodium falciparium and P. malariae are human specific <7>.
Effects of Parasites on their Hosts: Parasites May Injure their Host in a Number of Ways
Toxins: Apart from disease and death, parasites can produce poisonous substances in the form of secretions, excretions or other products such as proteolytic enzymes and pigments. These can harm or sensitize the host, for example, Schistosome cercariae, Entamoeba histolytica and Malaria parasites <5>.
Mechanical Effects: Mechanical damage due to big size ornumber of parasites occurs such as the hydratid cysts of Echinoccocusspecies. Intestinal obstruction, blockage and entangling of wormsalso occur such as in Ascaris lumbricoides. Parasites can perforatevital organs when migrating as in hookworms and Ascaris. Adhesivestructures of parasites also cause mechanical damage as in Taenids.
Absorption of Food: Parasites can deplete the hostnutritional level to reach disease level for the host. For example,Diphyllobothrium latum, the broad fish tapeworm absorbs a greatquantity of vitamin B12 reaching to megaloblastic anaemia. Hookworm absorbs iron daily leading to iron deficiency anaemia.
Destruction of Host Tissues: Skin penetrating parasitescause skin destruction such as the larvae of hookworm andSchistosomes which causes swimmer’s itch and the larvae ofmyasis producing flies. Microfilariae of Onchocerca volvulus causesskin onchodermatitis, nodules, leopard skin and lizard skin. Theskin lesions become the site of secondary bacterial infection (6, 7).
Ingestion of Host’s Body Constituent: Some parasites suchas hookworms and microfilariae of filarial worms feed on the bodyfluids (blood and lymph), and epithelia cells causing blood and fluidloss.
Gigantism: Some parasites such as larval stages of trematodesenhance growth of their snail intermediate host <1>.
Parasitic Castration: Sex reversal and parasitic castrationoccurs when gonadal tissues of intermediate hosts such as in crabsand snails are destroyed <1, 3>.
Effects of Hosts on the Parasites (Host reaction): TheseEffects are not as Apparent as Parasites Effects
Tissue Reaction: These are host defense mechanisms. Thetissue reactions are localized in the vicinity of the parasite’sinvasion. They usually disappear after the invading organism hasbeen eliminated, for example, inflammatory reactions, nodules,induction of abnormal growth, hyperplasia, metaplasia andneoplasia (tumors) and hypertrophy such as in Trichinella spiralisand Onchocerca volvulus infections <5>.
Immunity: This is a generalized effect on the body. It canoriginate in organs or systems remote from the vicinity of theinfection. It persists for a long time even after elimination. This is aphysiological response directed against the survival of the parasite.Anti bodies are produced to destroy parasites in some cases. Cellmediated immunity by complement activation occurs <6, 7> such asin helminthes infections.
Host Specification: Hosts have their own specific parasites.Some parasites are naturally adapted to certain species of hosts.For example, Trypanosoma brucei brucei infects only cattlebut Trypanosoma brucei gambiense and Trypanosoma bruceirhodesiense infects humans.
Adaptations: Certain parasites develop certain morphologicaland drastic modifications to enable them fit to the host. For, exampleblood flagellates have torpedo shape to enhance swimming. Giardialamblia has adhesive discs and Taenia solium have hooks to holdfast to the intestinal wall of host.
Host Resistance: Host insusceptibility is the unsuitabilityof a host as physiology, behavior, and structure Host parasiteinteractions may also influence host resistance. For example,Plasmodium vivax is not popular among West African because ofthe duffy factor in their red blood cells <8>.