Polio Virus: Comparison
Please note this is a comparison between Version 3 by Dean Liu and Version 2 by Dean Liu.

Poliovirus is a member of a family of viruses called the Picornaviridae.

  • Polio Virus
  • Picornaviridae
  • poliomyelitis

1. Structure of Polio Virus

Structure of Polio Virus

  • Poliovirus is a member of a family of viruses called the Picornaviridae.
  • Virions are spherical in shape with a diameter of about 27nm.
  • The particles are simple in that they are composed of a protein shell surrounding the naked RNA genome.
  • The genome is monopartite, linear ssRNA(+) genome of 7.2-8.5 kb, polyadenylated, composed of a single ORF encoding a polyprotein.
  • The capsids are composed of four structural proteins: VP1, VP2, VP3, and VP4.
  • The basic building block of the picornavirus capsid is the protomer, which contains one copy each of VP1, VP2, VP3, and VP4.
  • The shell is formed by VP1 to VP3, and VP4 lies on its inner surface.
  • The virus particles lack a lipid envelope, and their infectivity is insensitive to organic solvents.

2. Genome of Polio Virus

  • Polio virus genome can be divided into three parts
    • a 5′ noncoding region (NCR) that comprises approximately 10% of the genome, is uncapped, and is covalently linked at the 5′ terminus to viral protein VPg
    • a single open reading frame that appears to encode all of the viral proteins, with regions designated as P1 for capsid proteins and P2 and P3 for nonstructural proteins
    • a short 3′ NCR terminating in a polyA tail.

Genome of Polio Virus

  • The genomes vary in length from 7,209 to 8,450 bases.
  • The 5′-noncoding region contains the internal ribosome entry site (IRES), an element that directs translation of the mRNA by internal ribosome binding.
  • The regions P1 contains four segments for structural proteins which make up the capsid protein; 1A-VP4, 1B- VP2, 1C-VP3, 1D-VP1.
  • P2 comprises of three non structural proteins; 2A, 2B, 2C which play a role in viral replication.
  • P3 makes up four non structural proteins
    • 3A- anchors the replication complex to cell membrane
    • 3B- it is VPg protein
    • 3C- it is cysteine protease that cleaves the protein from polypeptides
    • 3D- it is RNA dependent RNA Polymerase.

3. Epidemiology of Polio Virus

Epidemiology of Polio Virus

  • Poliomyelitis has had three epidemiologic phases: endemic, epidemic, and the vaccine era.
  • Before global eradication efforts began, poliomyelitis occurred worldwide—year-round in the tropics and during summer and fall in the temperate zones.
  • Winter outbreaks were rare.
  • The disease occurs in all age groups, but children are usually more susceptible than adults because of the acquired immunity of the adult population.
  • In developing areas, where living conditions favor the wide dissemination of virus, poliomyelitis is a disease of infancy and early childhood (“infantile paralysis”).
  • In developed countries, before the advent of vaccination, the age distribution shifted so that most patients were older than age 5 years, and 25% were older than age 15 years.
  • The case fatality rate is variable and is highest in the oldest patients and may reach from 5% to 10%.
  • Before the beginning of vaccination campaigns in the United States, there were about 21,000 cases of paralytic poliomyelitis per year.
  • Humans are the only known reservoir of infection.
  • In temperate zones with high levels of hygiene, epidemics have been followed by periods of little spread of virus until sufficient numbers of susceptible children have grown up to provide a pool for transmission in the area.

4. Replication of Polio Virus

Replication of Polio Virus

  • Virus binds to a cellular receptor and the genome is uncoated.
  • VPg is removed from the viral RNA, which is then translated.
  • The polyprotein is cleaved nascently to produce individual viral proteins.
  • RNA synthesis occurs on membrane vesicles.
  • Viral (+) strand RNA is copied by the viral RNA polymerase to form full-length (–) strand RNAs, which are then copied to produce additional (+) strand RNAs.
  • Early in infection, newly synthesized (+) strand RNA is translated to produce additional viral proteins.
  • Later in infection, the (+) strands enter the morphogenetic pathway.
  • Newly synthesized virus particles are released from the cell by lysis.

5. Pathogenesis of Polio Virus

Pathogenesis of Polio Virus

  • The mouth is the portal of entry for the virus, transmitted by fecal oral route on ingestion of contaminated water.
  • Virus initially multiply in the oropharynx and gastrointestinal mucosa.
  • The virus is regularly present in the throat and in the stools before the onset of illness.
  • Virions are resistant to acidity of stomach and to lytic activities of the protease and other enzymes of the intestinal tract and bile.
  • On entering the body, the virus infects and multiplies in the tonsils and Peyer’s patch of ileum.
  • The incubation period is 9-12 days.
  • The virus then spreads to regional lymph nodes and enters the blood causing primary viremia.
  • Antibodies to the virus appear early in the disease, usually before paralysis occurs.
  • The antibodies are produced to prevent infection from spreading.
  • On continued infection and multiplication of virus in the ReticuloEndothelial System (RES), it invades the blood stream causing secondary viremia.
  • During this period of viremia, the poliovirus crosses the blood brain barrier and gain access to the brain.
  • The virus shows tissue tropism by specifically combining with neural cells.
  • The virus recognizes the receptor present on the anterior horn of spinal cord, dorsal root ganglia and motor neurons.
  • The destruction of motor neurons leads to paralysis.
  • The virus also infects brain stem causing bulbar poliomyelitis.

6. Clinical Manifestations of Polio Virus

  • The earliest features associated with phase of viremia consist of fever, malaise, headache, drowsiness, constipation, and sore throat and lasts for 1 to 5 days.
  • Incubation period is usually 10 days but may vary from 4 days to 4 weeks.

Asymptomatic illness

  • It is caused as a result of viral infection confined to the oropharynx and the intestine.

Abortive poliomyelitis

  • It is minor illness occurring in approximately 5% of infected people.
  • It is febrile illness characterized by fever, headache, sore throat, loss of appetite, vomiting, and abdominal pain.
  • Neurological symptoms are typically absent.

Non paralytic poliomyelitis

  • Some people who develop symptoms from the poliovirus contract a type of polio that doesn’t lead to paralysis (abortive polio).
  • This usually causes the same mild, flu-like signs and symptoms typical of other viral illnesses.
  • Signs and symptoms, which can last up to 10 days, include: Fever, sore throat, headache, vomiting, fatigue, back pain or stiffness, neck pain or stiffness, pain or stiffness in the arms or legs and muscle weakness or tenderness.

Paralytic poliomyelitis

  • Initial signs and symptoms of paralytic polio, such as fever and headache, often mimic those of non-paralytic polio.
  • Within a week, however, other signs and symptoms appear, including: Loss of reflexes, severe muscle aches or weakness and loose and floppy limbs (flaccid paralysis)

Post poliomyelitis syndrome

  • Post-polio syndrome is a cluster of disabling signs and symptoms that affect some people years after having polio.
  • Common signs and symptoms include: Progressive muscle or joint weakness and pain, fatigue, muscle wasting (atrophy), breathing or swallowing problems, sleep-related breathing disorder; such as sleep apnea, and decreased tolerance of cold temperatures.

Bulbar poliomyelitis

  • This is caused due to involvement of the cranial nerves, most commonly 9th, 10th, and 12th.
  • This condition tends to be more severe with involvement of the muscles of the pharynx, vocal cords and respiration.
  • The condition may cause death in 75% of the patient.

This entry is sourced from https://microbenotes.com/polio-virus/

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