Coxsackie B virus

Coxsackie B (also written coxsackievirus B) is a group of six types of enterovirus, causing symptoms ranging from gastrointestinal distress to pericarditis and myocarditis.

Symptoms
Symptoms of infection with viruses in the Coxsackie B grouping include fever, headache, sore throat, gastrointestinal distress, extreme fatigue as well as chest and muscle pain. It can also lead to spasms in arms and legs.

Immune system
In a mouse model of myocarditis, Coxsackievirus infection was found to upregulate Toll-like receptor 4 on mast cells and macrophages immediately following infection. It also increased numbers of mast cells.

Chronic infection
A study compared Coxsackie B2 virus in vitro to RNA extracted via muscle biopsy from eight patients with a chronic fatigue syndrome diagnosis. All patients had symptoms of muscle fatiguability. Four of these samples tested positive for enteroviral RNA. In all four patients with enteroviral-specific RNA, the enteroviral RNA had equal amounts of positive sense and negative sense RNA. By contrast, CVB2 virus in culture produced positive sense RNA at a ratio of 100:1. An equal ratio of positive to negative sense RNA would inhibit the translation of virus-specific gene products, explaining the failure to attract a response from the host immune system, and my account for how CVB2 could establish a persistent infection in these four patients.

Models of persistent infection of the heart and brain have also been studied in mice.

In human disease
Viruses in the Coxsackie B family progress to myocarditis or pericarditis, which can result i permanent heart damage or death. Coxsackie B virus infection may also induce aseptic meningitis. As a group, they are the most common cause of unexpected sudden death, and may account for up to 50% of such cases.

Myalgic Encephalomyelitis
Several studies have patients with ME to have persistently elevated levels of Coxsackie B IgM or IgG antibodies, circulating immune complexes containing viral antigen, or presence of enterovirus by PCR or culture, all indicating the possible presence of a persistent infection. Others studies failed to find a difference in rates of positivity between patients and controls. Differences in study outcomes may be due to the criteria used to define study cohorts as well as the techniques used.

Blood testing
Elevated Coxsackie B antibodies have been found in patients in at least two ME outbreaks. In a retrospective cohort study by Melvin Ramsay and Elizabeth Dowsett, 31% of the patients were found to have elevated enteroviral IgM antibody levels. Sixteen of these patients were retested annually over three years and all showed persistently elevated Coxsackie B neutralizing antibody levels and intermittently positive enteroviral IgM, suggesting a persistent infection was present.

Similarly, a study of of 76 patients with postviral fatigue syndrome (PVFS) found that 76% had detectible IgM responses to enteroviruses. 22% had positive cultures (compared to 7% controls) and VP1 antigen was detected in 51%, all pointing to a chronic infection in many post-viral patients. However, a larger study in Scotland of 243 PVFS patients and matched controls found no difference in IgM and IgG positivity between patients and controls.

PCR
In a study of serum samples from 100 CFS patients and 100 healthy controls, 42% of patients were positive for Coxsackie B sequences by PCR, compared to only 9% of the comparison group.

Also using PCR, a study of 236 patients by John Chia found enteroviral RNA in 48% of patients as compared to 8% of controls.To date, Chia reports finding enteroviral RNA in 35% of 518 patients.

Muscle testing
Several muscle biopsy studies have also found the presence of Coxsackie B RNA sequences in CFS patients as compared to controls. A study of 60 PVFS patients found 53% had enteroviral RNA in muscle compared to 15% of controls. However, a follow-up study comparing CFS patients to patients with other neuromuscular disorders failed to find a statistically significant difference.

Type 1 diabetes
A study of patients with Type 1 Diabetes found that Coxsackie B4 was found to infect β cells and cause inflammation mediated by natural killer cells.

Testing
In the United States, ARUP Laboratories offers a serum microneutralization assay that is designed to measure the concentration of serum antibodies to six serotypes of the virus; B1 through B6. This specific assay has been shown to be sensitive for detection of chronic infections in ME patients. A persistent fourfold or greater rise in antibody titer is often found in these patients, which is not often found in healthy controls.

A complement fixation assay for Coxsackie B serotypes is available in the United States from LabCorp and Quest Diagnostics, however this specific type of assay has not been found to be sensitive for the chronic infections found in ME patients.

Treatment
There are no approved vaccines or antivirals for Coxsackie viruses. However, preliminary research (often in animal models or in vitro) have been shown various compounds to have potential antiviral effects.

John Chia reported that treatment with Interferon and Ribavirin on patients with B3 or B5 appeared to show some benefit, but patients relapsed after discontinuation of treatment. One patient with B4 experienced moderate improvement on Pleconaril but also relapsed.