Human T-lymphotropic virus 1

Human T-lymphotropic virus
HTLV-1 and HIV
Virus classification
Group:	Group VI (ssRNA-RT)
Family:	Retroviridae'
Subfamily:	Orthoretrovirinae
Genus:	Deltaretrovirus
Species:	Simian T-lymphotropic virus
Serotypes
Human T-lymphotropic virus

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Human T-cell lymphotropic virus type 1 or human T-lymphotropic virus type 1 (HTLV-I), also called the adult T-cell lymphoma virus type 1, is a retrovirus of the human T-lymphotropic virus (HTLV) family that has been implicated in several kinds of diseases including very aggressive adult T-cell lymphoma (ATL), HTLV-I-associated myelopathy, uveitis, Strongyloides stercoralis hyper-infection and some other diseases. However, only about 1–5% of infected persons are thought to develop cancer as a result of the infection with HTLV-I over their lifetimes.^[1]

Adult T-cell lymphoma (ATL) was discovered in 1977 in Japan. The symptom of ATL is totally different from other lymphoma that were known at that time. It was suggested that ATL is caused by the infection of a retrovirus called ATLV.^[2] Strikingly, ATLV had the transforming activity in vitro.^[3] These studies established that the retrovirus infection is the cause of ATL. The retrovirus is now generally called HTLV-I because later studies proved that ATLV is the same as the firstly identified human retrovirus called HTLV discovered by Bernard Poiesz and Francis Ruscetti and their co-workers in the laboratory of Robert C. Gallo at the National Cancer Institute.^[4] Infection with HTLV-I, like infection with other retroviruses, probably occurs for life. A patient infected with HTLV can be diagnosed when antibodies against HTLV-1 are detected in the serum.^[1]

Virology

HTLV-1 is a retrovirus belonging to the family retroviridae and the genus deltaretrovirus. It has a positive-sense RNA genome that is reverse transcribed into DNA and then integrated into the cellular DNA. Once integrated, HTLV-1 continues to exist only as a provirus which can spread from cell to cell through a viral synapse. Few, if any, free virions are produced and there is usually no detectable virus in the blood plasma though the virus is present in genital secretions. Like HIV, HTLV-1 predominately infects CD4+ T cells.^[1]

The viral RNA is packed into the icosahedral capsid which is contained inside the protein inner envelope. The lipid outer envelope is of host cell origin but contains viral transmembrane and surface proteins. The virion is spherical in shape with a diameter of about 100 nm.^[1]

Seven HTLV-1 genotypes are recognised—HTLV-1a through HTLV-1g.^[1] It is estimated that from 10 to 20 million people worldwide are infected; 3–8 million of them are in Africa.^[5] The most widespread genotype is type A. Types B, D, E, F and G have only been isolated from Central Africa. Type C is only present in Asia. Simian HTLV-1 genotypes are interspersed in between the human genotypes indicating frequent animal-human and human-animal transmission.^[1] The only human genotype that does not have a simian relative is A. It is thought that genotypes B, D, E, F and G originated in Africa from closely related STLV about 30,000 years ago, while the Asian genotype C is thought to have originated independently in Indonesia from the simians present there.^[1] Two subtypes are found in Japan: a transcontinental subgroup and a Japanese subgroup.^[6]

Epidemiology

The knowledge about HTLV-1 epidemiology is limited.

The high prevalence is detected in Japan where more than 10% of the population are infected. The reasons for this extremely high prevalence are not known. In Taiwan, in Iran, and in Fujian, a Chinese province near Taiwan the prevalence is 0.1–1%. The infection rate is about 1% in Papua New Guinea, the Solomon Islands, and Vanuatu, where the genotype C predominates. In Europe HTLV-1 is still uncommon, although it is present in some high-risk populations, including immigrants and intravenous drug users. In Americas the virus is found in indigenous populations and descendants of African slaves from where it is thought to have originated. The general prevalence is from 0.1 to 1%. In Africa the prevalence is not well known, but it is about 1% in some countries.^[1]

HTLV-I infection in the United States appears to be about half as prevalent among IV drug users and about one-tenth as prevalent in the population at large as HIV infection. Although little serologic data exist, the prevalence of infection is thought to be highest among blacks living in the Southeast. A prevalence rate of 30% has been found among black intravenous drug users in New Jersey, and a rate of 49% has been found in a similar group in New Orleans.^[7]

HTLV-I infection in Australia is very high among the indigenous peoples of central and northern Australia, with a prevalence rate of 10–30%. It is also high among the Inuit of Northern Canada, in Japan, northeastern Iran,^[8] Peru, the Pacific coast of Colombia and Ecuador, the Caribbean, and in Africa.

Transmission

Transmission of HTLV-I is believed to occur by sexual contact, from mother to child via breastfeeding, and through exposure to contaminated blood, either through blood transfusion or sharing of contaminated needles. The importance of the various routes of transmission is believed to vary geographically. The research in discordant couples showed that probability of sexual transmission is about 0.9 per 100 person-years.^[1]

• In Japan, the geographic clustering of infections suggest that the virus is more dependent on mother-to-child transmission.^[9]
• In the Caribbean, the geographic distribution of the virus is more uniform, and it is more common among those with many sexual partners, indicating that sexual transmission is more common.^[10]

Tropism

The term viral tropism refers to which cell types HTLV-I infects. Although HTLV-1 is primarily found in CD4+ T cells, other cell types in the peripheral blood of infected individuals have been found to contain HTLV-1, including CD8+ T cells, dendritic cells and B cells. HTLV-I entry is mediated through interaction of the surface unit of the virion envelope glycoprotein (SU) with its cellular receptor GLUT1, a glucose transporter, on target cells.^[11]

Associated diseases

Malignancies

Adult T cell leukemia/lymphoma

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HTLV-1 is also associated with adult T-cell leukemia/lymphoma and has been quite well studied in Japan. The time between infection and onset of cancer also varies geographically. It is believed to be about sixty years in Japan and less than forty years in the Caribbean. The cancer is thought to be due to the pro-oncogenic effect of viral RNA incorporated into host lymphocyte DNA. Chronic stimulation of the lymphocytes at the cytokine level may play a role in the development of the malignancy. The lymphoma ranges from a very indolent and slowly progressive type to a very aggressive and nearly uniformly lethal proliferative type.^{[citation needed]}

Cutaneous T-cell lymphoma

There is some evidence that HTLV-1 is a causative agent of cutaneous T-cell lymphoma.^[1]

Inflammatory diseases

HTLV myelopathy/tropical spastic paraparesis

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HTLV-1 is also associated with a progressive demyelinating upper motor neuron disease known as HTLV-1 associated myelopathy/tropical spastic paraparesis (HAM/TSP), an characterized by sensory and motor deficits, particularly of the lower extremities, incontinence and impotence.^[12] Only 0.3 to 4% of infected individuals develop HAM/TSP, but this will vary from one geographic location to another.^[1]

Signs and symptoms of HTLV myelopathy include:

• Motor and sensory changes in the extremities
• Spastic gait in combination with weakness of the lower limbs
• Clonus
• Bladder dysfunction(neurogenic bladder) and bladder cancer

Other neurologic findings that may be found in HTLV include:

• Mild cognitive impairment
• Erectile dysfunction

Arthropathy

HTLV-1 is associated with a rheumatoid-like arthropathy, although the evidence is contradictory. In these cases patients have a negative rheumatoid factor.^[1]

Uveitis

Studies from Japan demonstrated that HTLV-1 infection may be associated with an intermediate uveitis. At onset the patients present with blurred vision and floaters. The prognosis is favorable—the condition usually resolves within weeks.^[1]

Opportunistic infections

Individuals infected with HTLV-1 are at risk for opportunistic infections—diseases not caused by the virus itself, but by alterations in the host's immune functions.^[1]

HTLV-1, unlike the distantly related retrovirus HIV, has an immunostimulating effect which actually becomes immunosuppressive. The virus activates a subset of T-helper cells called Th1 cells. The result is a proliferation of Th1 cells and overproduction of Th1 related cytokines (mainly IFN-γ and TNF-α). Feedback mechanisms of these cytokines cause a suppression of the Th2 lymphocytes and a reduction of Th2 cytokine production (mainly IL-4, IL-5, IL-10 and IL-13). The end result is a reduction in the ability of the infected host to mount an adequate immune response to invading organisms that require a predominantly Th2 dependent response (these include parasitic infections and production of mucosal and humoral antibodies).^{[citation needed]}

In the central Australian Aboriginal population, HTLV-1 is thought to be related to their extremely high rate of death from sepsis. It is also particularly associated with bronchiectasis, a chronic lung condition predisposing to recurrent pneumonia. It is also associated with chronic infected dermatitis, often superinfected with Staphylococcus aureus and a severe form of Strongyloides stercoralis infection called hyper-infestation which may lead to death from polymicrobial sepsis. HTLV-1 infection has also been associated with tuberculosis.^[1]

Treatment

Lua error in package.lua at line 80: module 'strict' not found. Treatment of opportunistic infections varies depending on the type of disease and ranges from careful observation to aggressive chemotherapy and antiretroviral agents.^{[citation needed]} Adult T cell lymphoma is a common complication of HLTV infection and requires aggressive chemotherapy, typically R-CHOP. Other treatments for ATL in HLTV infected patients include interferon alpha, zidovudine with interferon alpha and CHOP with arsenic trioxide. Treatments for HLTV myelopathy are even more limited and focus mainly on symptomatic therapy. Therapies studied include corticosteroids, plasmapheresis, cyclophosphamide, and interferon, which may produce a temporary symptomatic improvement in myelopathy symptoms.^[13]

Valproic acid has been studied to determine if it might slow the progression of HLTV disease by reducing viral load. Although in one human study it was effective in reducing viral load, there did not appear to be a clinical benefit. Recently however, a study of valproic acid combined with zidovudine showed a major decrease in the viral load of baboons infected with HLTV-1. It is important to monitor HLTV patients for opportunistic infections such as cytomegalovirus, histoplasmosis, scabies, pneumocystis pneumonia, and staphylococcal infections. HIV testing should also be performed, as some patients may be co-infected with both viruses.^{[citation needed]}

Allogenic bone marrow transplantation has been investigated in the treatment of HLTV-1 disease with varied results. One case report describes an HLTV-1 infected woman who developed chronic refractory eczema, corneal injury and adult T cell leukemia. She was subsequently treated with allogenic stem cell transplantation and had complete resolution of symptoms. One year post-transplant, she has had no recurrence of any symptoms, and furthermore has had a decrease in her proviral load.^{[citation needed]}

References

External links

Wikimedia Commons has media related to Human T-lymphotropic virus 1.

• International Retrovirology Association
• Human T-lymphotropic virus 1 at the US National Library of Medicine Medical Subject Headings (MeSH)
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