What is Plasmodium?
Plasmodium vivax is a protozoa parasite and human pathogen. Plasmodium vivax is one of the six species of malaria parasite causing recurring (Benign tertian) malaria. Plasmodium falciparum is the deadliest of the six; Plasmodium vivax is less virulent but can cause severe ailment and death due to splenomegaly (pathologically enlarged spleen). Plasmodium vivax is borne by the female Anopheles mosquito since it is the only female of the species that bite humans. In spite of the recent advancement, the protein structure of Plasmodium vivax remains unknown, though Plasmodium falciparum and Plasmodium vivax share an analogous metabolic potential, with a range of putative membrane transporters necessary for parasites.
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Morphology
There are four distinct species of plasmodium that infect humans; P. falciparum, P.vivax, P.ovale, and P.malariae. Molecular investigation revealed there could be other morphological variants. CSP gene analysis of a blood sample of a P.vivax infected person revealed the individual was infected by a species closely related to P.simiovale, a simian malaria parasite. Plasmodium vivax morphology is distinctive by infected enlarged erythrocytes, which appear like granules over the erythrocytes. These granules are caused by caveola complexities over the erythrocytes. Plasmodium vivax morphology is identical to P.ovale also. This parasite also exhibits granules on the erythrocytes, making it difficult to distinguish between the two. Plasmodium vivax morphology often has the ameboid appearance and the schizonts with more than 20 merozoites.
Pathogenicity of plasmodium vivax
Plasmodium vivax is now recognized as one of the prime causes of severe and fatal malaria despite its low virulent. The vivax infected blood cells of the person get deformed with apparent rareness of parasite sequestration. Severe amenity is witnessed along with recurrent hemolysis of predominant healthy erythrocytes with enhanced vulnerability. Lung injury caused by inflammation in alveolar-capillary membrane permeability. However, rare vivax related coma may occur.
A plasmodium characteristic inside the red blood cell is a double membrane, and the plasmalemma is closely applied to the cytoplasm. The structure of Plasmodium vivax contains cytoplasm made of ribonucleoproteins containing small dense particles. The double membrane of the malaria plasmodium vivax containing mitochondria has peripheral cristae and a stricter, less central region.
Plasmodium vivax life cycle diagram explains the life cycle, which s divided into two; asexual life or schizogony in men and sexual life cycle in female Anopheles mosquito. Schizogony is a process where Plasmodium vivax in man and plasmodium asexually reproduce in liver and RBC cells. A man gets infected when an infected female Anopheles mosquito with sporozoites in its salivary gland. While puncturing the skin of the man, the mosquito inserts the infected saliva into the bloodstream. The sporozoites inoculate into thousands in the host`s blood. Sporozoites are inflected forms of the parasite.
Plasmodium vivax in mosquitoes has below stages-
Ingestion: When the female Anopheles mosquito sucks the blood of the infected person, the gametocytes along with RBC enter its body.
Gametogenesis: In this process, gametes are formed from gametocytes; like gametocytes, gametes are micro and macro.
Fertilization: This process is also known as syngamy, where the nucleus of the female gamete comes to lie near its receptive ones.
Ookinete: During this period zygote becomes elongated and shapes like a worm with pointed ends and motile. In the first twenty-four hours, the zygote remains motionless then starts metamorphosis.
Encystment: In this phase, Ookinete changes into a spherical shape and starts taking nutrition from the stomach wall forming a thin, supple, and permeable cyst.
Sporogony: Each oocyst enters into a stage of asexual multiplication.
Microscopic view
Plasmodium vivax under a microscope under optimal condition shows granules over the erythrocytes known as Schuffner's dot. P.vivax rings have large chromatin dots, and cytoplasm can become ameboid as they develop. The trophozoite stage of Plasmodium vivax exhibits large chromatin dots with fine yellowish pigment. The in-ring stage of plasmodium vivax is often thin and delicate. The ring may have one or more chromatin dots found in the periphery of the RBC cells.
P.vivax is borne by at least seventy-one mosquito species. Many vivax vectors thrive in temperate climates extending up to the north as Finland. Some species prefer to bite in the daytime and outdoor, negating the effectiveness of mosquito repellent and bed nets. As some key vector species are yet to be grown and studied at the laboratory, the effectiveness of insecticide on these vectors is unqualified. Unlike P. falciparum, P.vivax can infect the bloodstream at sexual stage parasites.
Hence, the article has covered all the vital details regarding Plasmodium Vivax.
FAQs on Plasmodium
1. What is Plasmodium in biology?
Plasmodium is a genus of unicellular eukaryotic parasites belonging to the phylum Apicomplexa. It is widely known as the protozoan parasite responsible for causing malaria in humans and other vertebrates. It cannot survive on its own and requires a host to live and reproduce.
2. How is Plasmodium classified?
The biological classification of Plasmodium places it within the Kingdom Protista. Its detailed classification is as follows:
- Kingdom: Protista
- Phylum: Apicomplexa
- Class: Aconoidasida
- Order: Haemosporida
- Family: Plasmodiidae
- Genus: Plasmodium
3. What are the main species of Plasmodium that cause malaria in humans?
Five species of Plasmodium are primarily responsible for causing malaria in humans. These are:
- Plasmodium falciparum: The most dangerous species, causing the most severe symptoms and majority of malaria deaths.
- Plasmodium vivax: Causes recurring malaria due to dormant stages in the liver.
- Plasmodium ovale: A rarer species that can also cause relapsing malaria.
- Plasmodium malariae: Causes a milder, but long-lasting, chronic form of malaria.
- Plasmodium knowlesi: Primarily a primate parasite that can also infect humans and cause severe malaria.
4. Why is Plasmodium not considered a bacterium or a virus?
Plasmodium is a eukaryotic protozoan, which makes it fundamentally different from bacteria and viruses. Unlike prokaryotic bacteria, Plasmodium has a complex cell structure with a true nucleus and membrane-bound organelles. Unlike viruses, which are non-cellular infectious agents, Plasmodium is a living, single-celled organism with a complex reproductive cycle.
5. What is the importance of having two hosts in the Plasmodium life cycle?
The two-host life cycle is essential for the parasite's survival and transmission. The human host is where asexual reproduction occurs, leading to a massive increase in parasite numbers and causing the clinical symptoms of malaria. The female Anopheles mosquito acts as the definitive host where sexual reproduction occurs. This creates genetic diversity and produces the infective sporozoites needed to transmit the disease to a new human host.
6. Can you explain the difference in roles between the sporozoite and merozoite stages of Plasmodium?
The sporozoite and merozoite are two distinct and critical stages in the parasite's life cycle. The sporozoite is the motile, infective form injected by the mosquito, which travels to the liver to begin the infection. The merozoite is the stage that emerges from the liver cells and is responsible for invading red blood cells (RBCs). The rupture of RBCs by merozoites causes the characteristic fever cycles and anaemia associated with malaria.
7. Why is malaria caused by Plasmodium falciparum often more severe than that caused by Plasmodium vivax?
Plasmodium falciparum causes a more severe form of malaria because it has a unique ability to make infected red blood cells sticky. This phenomenon, known as cytoadherence, causes the infected cells to clog small blood vessels in vital organs like the brain, kidneys, and lungs. This blockage can lead to life-threatening complications like cerebral malaria and organ failure, which are not typically associated with P. vivax infections.
8. What are the key characteristics of the Plasmodium parasite?
The defining characteristics of the Plasmodium parasite include:
- It is a unicellular eukaryotic protozoan.
- It is an obligate intracellular parasite, meaning it must live inside the cells of its hosts.
- It has a complex life cycle that alternates between a vertebrate host (like humans) and an insect vector (the Anopheles mosquito).
- It reproduces asexually in the human host and sexually in the mosquito host.
- It possesses a specialized structure called an apical complex which helps it penetrate host cells.
