Date sent:      	Tue, 18 Jun 2002 

[Note: This article was published in the Spring 2002 edition of "The CFIDS
Chronicle," a quarterly publication of The Chronic Fatigue and Immune
Dysfunction Syndrome Association of America, PO Box 220398, Charlotte, NC
28222-0398 800-44-CFIDS, and is copyrighted by them. ]

Infections in CFIDS
By Joseph F. John, Jr., MD and Kenneth Friedman, PhD

Many people with chronic fatigue and immune dysfunction syndrome (CFIDS)
suffer from fever, sore throat and lymph node swelling and tenderness.
These symptoms often accompany diseases caused by microorganisms such as
viruses and bacteria. It seems logical, therefore, that microbial
infections could be linked to the development or perpetuation of CFIDS.

Yet the role of infections in CFIDS remains unclear and, in many cases,
controversial. Good data suggest that one, or possibly many, microorganisms
can trigger the onset of CFIDS or
worsen its symptoms. But much work remains to identify these microbes and
discover how they may function in CFIDS.

It is clear that at least 50 percent of people with CFIDS (PWCs) have an
infectious episode prior to the development of CFIDS. (1)   In some cases
the inciting event is a mononucleosis-like illness, occasionally a standard
Epstein-Barr virus (EBV)-associated mononucleosis.  More often, it is a
nonspecific upper respiratory infection, a sinusitis or bronchitis or
occasionally an influenza-like illness, the latter characterized by severe
muscle pain, high fever and extreme malaise.

Some PWCs may actually describe vividly an event at a specific date and
time of day when they became ill, relating that after that event they never
felt healthy again. Paradoxically, the initial symptoms may blur over time
for many patients with CFIDS, making them difficult to recapture in the
medical history obtained years later.


Looking for a link

Many infectious agents seem capable of inciting CFIDS, but few good studies
have linked the illness to specific agents. One early study depicted an
outbreak of disease probably associ-   ated with human herpes virus 6
(HHV-6) at Incline Village, Nevada. In this outbreak there was evidence of
depletion of B-cell lymphocytes, a specific type of immune cell that makes
antibodies, and development of symptoms consistent with CFIDS. (12)

Older observations from Europe suggested that an illness called myalgic
encephalomyelitis had occurred in clusters that suggested an
infectious/contagious basis for the outbreak. (3)  Although it is tempting
to attribute CFIDS to an unresolved infection secondary to viral infection
like mononucleosis or influenza, it is difficult to attribute the
constellation of symptoms and signs that currently define CFIDS as due to a
single infectious agent.

There is some evidence, however, that CFIDS may be associated with
unresolved or persistent infectious agents. For example, most patients with
CFIDS have persistently and, at times, markedly elevated antibodies to
portions of the EBV, suggesting that their latent infection with EBV has in
some way been re-activated. This indicates that they have been exposed to
EBV at least once and possibly on an ongoing basis. The same can be said,
albeit less assuredly, for HHV-6. Belgian and French coworkers also have
reported recently that certain types of bacteria known as Mycoplasma are
associated with precipitating or perpetuating the illness.(1) One species
of special interest is Mycoplasma fermentans.

Other evidence for an infectious basis for CFIDS hinges on the recent
observations that one of the major antiviral pathways in the immune systems
of PWCs is dysfunctional. Over the last decade it has become clear that
PWCs generate abnormal concentrations of an intracellular enzyme called
RNase L. (1,4,5)  Activated RNase L serves as one final arm in a more
general antiviral pathway, triggered initially outside the cell by a group
of com- pounds called interferons. Interferons are produced in response to
foreign double-stranded DNA (usually a virus), and, in turn, stimulate the
activation of a substance called 2-5 adenylate inside the cell. This
substance activates RNase L, an enzyme capable of degrading single-stranded
viral RNA or perhaps other messenger RNA and halting the virus from
producing further damage. (4,5)

In a sense, this system works as a nonspecific defense mechanism before
specific humoral (antibody) and other specific cellular responses take
over. Patients with CFIDS tend to fragment the functional, large molecular
weight RNase L (80 Kda) and produce instead a dysfunctional, low molecular
weight RNase L (37 Kda). So the symptoms suggestive of recurrent viral
infections in PWCs may be due to such an alteration in this antiviral pathway.


Weighing the evidence
Very few infectious diseases cause the number and diversity of symptoms
seen in patients with CFIDS. The disease that most resembles CFIDS is acute
and subacute EBV infection. But patients with mononucleosis tend to be
younger and do not suffer from the other primary symptoms of CFIDS such as
cognitive dysfunction, sleeping disorders and allodynia.

Nevertheless, EBV was initially thought to be the cause of CFIDS. When
blood was tested for antibodies against two EBV replicating enzymes,
abnormal titers of antibodies were found twice as often in PWCs than in
controls (34.1% vs. 17.1%). While this may indicate a more frequent
occurrence of EBV in patients with CFIDS (or perhaps that EBV may
precipitate CFIDS in a subset of PWCs), EBV is not the universal cause or
precipitant of CFIDS. (6)

Buchwald et al tested 548 chronically fatigued patients, including patients
with CFIDS, for prevalence of antibodies to 13 viruses. No consistent
differences were found in PWCs compared to control subjects. An earlier
study by Mawle et al at the U.S. Centers for Disease Control and Prevention
(CDC) could not find elevated antibody titers to any herpes virus,
including EBV.(7) Recently, workers at CDC examined 26 patients and 52
controls for the presence of HHV-6 and HHV-7 and found no differences
between patients and controls.(8)

The recent report of an "outbreak" of CFIDS in Japan(9) which may be
affecting as much as one-third of the Japanese workforce may rekindle
efforts to identify an infectious agent as the cause of CFIDS. A
preliminary report suggests that this is a post-hepatitis B vaccination
outbreak and may be due to a contaminating organism.

The failure to find a single virus in all patients with CFIDS has led to
the assertion by some that CFIDS is not caused by a viral agent. However,
the failure to identify a causative viral agent does not preclude the
possibility that CFIDS is caused by a yet-to-be-identified virus or
co-infection with two or more viral agents or an unknown infective agent.

An intriguing, unifying hypothesis put forward by Lerner et al is that
CFIDS symptoms are caused by a viral infection of the heart.(10) These
investigators have described electrocardiographic changes that can be
explained by changes in membranes of some heart cells.(11) They believe
that such changes may be caused by the presence of a virus and claim
success with long-term therapy with antiviral medication.

Other non-CFIDS literature documents the ability of viral infection to
alter the way that
a cell moves substances across its membrane through specific "channels."
Human immunodeficiency virus type 1 (HIV-l) has been shown to inhibit a
potassium channel in some brain and human spinal cord cells,12 while herpes
simplex virus has been shown to inhibit sodium channel activity in some
nerve cells of adult guinea pigs.(13) Virus-induced alteration of cell
membrane function, therefore, is a possible, but unproven, mechanism of
CFIDS pathophysiology.

There is other indirect immunologic evidence for persistent viral
infection. Patients with CFIDS often have lower numbers of immune system
cells called lymphocytes, in particular CD4+ and CD8+ lymphocytes. This
type of depletion should not be confused with the CD4+ depletion seen with
HIV infection. In HIV disease the CD4+ to CD8+ ratio is usually reversed.

Other diagnoses
Bacteria, viruses and parasites have been linked to fatiguing syndromes
including brucella, bartonella and cyclospora.(14) Not widely known, it has
been reported that the cat scratch disease due to Bartonella henselae may
be present as chronically fatiguing illness.(11) In considering bartonella
infection as a cause of fatigue, a good history of cat exposure includ- ing
being licked by or sleeping with the cat and cat scratch disease serology,
coupled with newer techniques to amplify bartonella DNA in blood, should
help eliminate that diagnosis.

Some patients complain of recurrent oral or vaginal candidiasis. Some may
insist that they are chronically infected with yeast, a holdover from the
pseudoepidemic promulgated by some health care providers claiming that many
patients with undefined disease had deep-seated, unresolved mycotic
infection due to Candida albicans, thus the term "the yeast
connection."(15) Nevertheless, in some patients C. albicans can be cultured
at times from the oral cavities and genital tracts. Some patients in fact
report improvement of fatigue when oral azoles are used to treat the
mucosal infections.

In patients with Lyme disease, exhausting fatigue, deep bone and body pain
and cognitive dysfunction are unusual. Nevertheless, in areas of the
country where Lyme disease caused by Borrelia borgdorferi is endemic,
patients with CFIDS and physicians will fixate on Lyme disease as a cause.
To confound the clinical picture, Lyme disease does have a chronic form,
and blood serology showing increased antibodies to Borrelia borgdorferi
that was positive early in the disease may persist for years. Ehrlichiosis
caused by agents related to the rickettsia is an emerging disease endemic
in the same geographic regions as Lyme disease. The capacity for E. canis
to produce a chronic disease like CFIDS has not been investigated.

As mentioned, workers in Belgium have reported in abstract form an
association of circulating peripheral blood cell-associated Mycoplasma
fermentans with CFIDS. This bacterium awaits more definitive studies to
define its role in CFIDS.

In this age of emerging infectious agents, including those of bioterrorism,
other new microbial agents will surely arise as causes of chronic fatigue.

______________________________________________________________________

           Useful Diagnostic Tests to Rule Out
      Infectious Causes of Chronic Fatigue Syndrome
______________________________________________________________________

                                Diagnostic Test
Infectious Agent     Serology        Culture        DNA Amplification
______________________________________________________________________

CMV                      X              X*
EBV                      X
HHV-6                    X              X                   X
Borrelia borgdorferi     X                                  ?
Bartonella henslae       X                                  X
Brucella canis           X
Mycoplasma fermentans                                       X
Tropheryma whippelii                                        X
_______________________________________________________________________
*Culture of urine most useful

Diagnostic tests
To initiate the workup of PWCs after a thorough history and physical
examination, primary care physicians can obtain blood tests for EBV, HHV-6,
cytomegalovirus (CMV), toxoplasmosis and HIV. The next level of testing
could include other serologies, tests for HHV-6 viremia, RNase L
determinations, Mycoplasma, ricksettial or chlamydia DNA amplification by
PCR. These advanced tests may be difficult to obtain because of lack of
insurance coverage. PWCs often have to secure and pay for this testing
themselves by finding the most appropriate laboratory to perform the
testing and arranging third-party payment - a very frustrating process indeed.

Regional specialty labs may be helpful to patients arranging specialized
diagnostic testing. An infectious diseases physician specializing in CFIDS
can assist the primary care physician in choosing tests that may support
the diagnosis of CFIDS or other infectious diseases. The chart above
outlines the diagnostic tests involving some infectious agents that may be
considered for the patients with CFIDS.

Therapy
There are no studies that support the rou- tine use of anti-infective
medications in the therapy of CFIDS.(16) Nevertheless, since CFIDS is
devastating to individuals and their families, and since there is evidence
that CFIDS may be associated with persistent infectious agents, it is
reasonable to expect careful trials of antivirals, antibacterials and, in
certain instances, antifungal agents.

PWCs with early CFIDS and high titers of antibody to DNA viruses may
benefit from a one-to-two month trial of antivirals, usually starting with
an agent like valcyclovir at doses of 500 mg two or three times a day. If
there is no response at two months, therapy should be stopped.

Ampligen is a 50-base-pair compound consisting of double-stranded RNA that
several studies have shown improve the Karnofsky score, a measure of
well-being.(17) Ampligen is a proprietary compound manufactured by
Hemispherx Biopharma. Preliminary evidence has also been presented to show
that Ampligen can decrease the level of low molecular weight RNase L. A
current clinical trial now underway with Ampligen compared to placebo will
determine if the product will be approved by the federal Food and Drug
Administration.

Some PWCs will give a history of a profound response to an incidental
antibacterial they had taken in the past. While there are no studies to
substantiate empiric use of agents like the macrolides or quinolones, when
patients are debilitated it seems reasonable to attempt one- or two-month
trials in selected patients who have had such beneficial responses
historically. New studies are underway to determine the efficacy of
antimicrobials in those patients with evidence of active Mycoplasma
infection. Since cytokine regulation may play a role in CFIDS, agents to
modulate cytokine pathways like isoprinosine, infliximab or thalidomide
will serve as yet another potentially exciting area for clinical trialS.(18-20)

_________________________
Dr. Joseph John Jr. is chief of medical specialty services at the Ralph H.
Johnson Department of Veterans Affairs Medical Center and Professor of
Medicine, Immunology and Microbiology at the Medical University of South
Carolina in Charleston. Besides, CFIDS, Dr. John's diverse research
interests include bacterial resistance, staphylococcal infections and
infections in hospital settings.

Kenneth J. Friedman, PhD, is associate professor of pharmacology and
physiology at the University of Medicine & Dentistry of New Jersey, New
Jersey Medical School, in Newark.


References

1. DeMerleir K et al. "A 37 kDa 25 A binding protein as a potential
biochemical marker for chronic fatigue syndrome." Am J Med. 2000; 108:99-105.
2. Buchwald D et al. "Comparison of patients with chronic fatigue syndrome,
fibromyalgia, and multiple chemical sensitivities." Arch Intern Med. 1994;
154:2049-53.
3. Lloyd AR et al. "Chronic fatigue syndrome: current concepts of
pathogenesis and treatment." Curr Clin Top Infect Dis. 1999; 19:135-59.
4. Suhadolnik RK et al. "Upregulation of the 2-5A synthetase/RNase L
antiviral pathway associated with chronic fatigue syndrome." Clin Infect
Dis. 1994; 18 supp 1:S96-104.
5. Suhadolnik RK et al. "Biochemical evidence for a novel low molecular
weight 2-5A-dependent RNase L in chronic fatigue syndrome. J Interferon
Cytokine Res. 1997; 17:377-85.
6. Natelson BH et al. "High titers of anti-Epstein-Barr virus DNA
polymerase are found in patients with severe fatiguing illness." J Med
Virol. 1994; 42:42-6.
7. Mawle AC et al. "Seroepidemiology of chronic fatigue syndrome: a
case-control study." Clin Infect Dis. 1995; 21:1386-9.
8. Reeves WC et al. "Human herpesviruses 6 and 7 in chronic fatigue
syndrome: a case-control study." Clin Infect Dis. 2000; 31:48-52.
9. French HW. "A Postmodern Plague Ravages Japan's Workers." New York
Times, East Coast Edition. Feb. 21, 2000, pA4.
10. Lerner AM et al. "A Unified Theory of the Cause of Chronic Fatigue
Syndrome." Infect Dis Clin Prac. 1997; 6:239-43.
11. Lerner AM et al. "Cardiac involvement in patients with chronic fatigue
syndrome as documented with Holter and biopsy data in Birmingham, Mich.,
1991-93." Infect Dis Clin Prac. 1997; 6:327-33.
12. Kort JJ et aI. "The nef protein of the human immunodeficiency virus
type 1 inhibits a large-conductance potassium channel in human glial
cells." Neurosci Left. 1998; 251:1-4.
13. Fukuda J et aI. "Loss of membrane excitability after herpes simplex
virus infection in tissue-cultured nerve cells from adult mammal." Brain
Res. 1981; 211:235-41.
14. Soave R. "Cyclospora: an overview." C/in Infect Dis. 1996; 23:429-35.
15. Renfro Let aI. "Yeast infection among 100 patients with chronic
fatigue." Am J Med. 1989; 86: 165-8.
16. Whiting P et aI. "Interventions for the treatment and management of
chronic fatigue syndrome." JAMA. 2001; 286:1360-68.
17. Strayer DR et aI. "A controlled clinical trial with a specifically
configured RNA drug...in chronic fatigue syndrome." Clin Infect Dis. 1994;
18 supp I:S88-95.
18. Hersey P et aI. "Effect of isoprinosine on natural killer cell activity
of blood mononuclear cells." Int J Immunopharmacol. 1984; 6:315-20.
19. Simon LN et aI. "Isoprinosine: an overview." Cancer Treat Rep. 1978;
62:163-9.
20. Yee MF et aI. 'Treatment of complicated sarcoidosis with infliximab and
anti-tumor necrosis factor alpha therapy." Ann Intern Med. 2001; 135:27-31.

This article was adapted and reprinted with permission from A Consensus
Manual for the Primary Care and Management of Chronic Fatigue Syndrome,
published in 2001 by The Academy of Medicine of New Jersey, the University
of Medicine and Dentistry of New Jersey and The New Jersey Dept. of Health
and Senior Services. For more information on the manual, please see pp. 16-17.

[Note: This manual is available for download in PDF format at the Web site
of The New Jersey Chronic Fatigue Syndrome Association, Inc. at
http://www.njcfsa.org/Manual.pdf .]