POLYGLANDULAR AUTOIMMUNE SYNDROME'S
When immune dysfunction affects two or more endocrine
glands and other nonendocrine immune disorders are present, the polyglandular
autoimmune (PGA) syndromes should be considered. The PGA syndromes are classified
as two main types:
the type I syndrome starts in childhood and is characterized by
mucocutaneous candidiasis, hypoparathyroidism, and adrenal insufficiency;
the
type II, or Schmidt syndrome is more likely to present in adults and most
commonly includes adrenal insufficiency, thyroiditis, or type 1 diabetes
mellitus. Some authors have attempted to subdivide PGA II on the basis of
association with some autoimmune disorders but not others (i.e., type II and
type III).
The type III syndrome is heterogeneous and may consist of autoimmune
thyroid disease along with a variety of other autoimmune endocrine disorders . However, little information is gained by making this
subdivision in terms of understanding pathogenesis or prevention of future
endocrine complications in individual patients or in the affected
families.
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Abbreviation: APECED, autoimmune
polyendocrinopathy-candidiasis-ectodermal
dystrophy.
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Polyglandular Autoimmune Syndrome Type I
PGA type I usually is recognized in the first decade of
life and requires two of three components for diagnosis: mucocutaneous
candidiasis, hypoparathyroidism, and adrenal insufficiency. Mucocutaneous
candidiasis and hypoparathyroidism present with similar high frequency (100% and
79–96%, respectively). Adrenal insufficiency is observed in 60–72% of patients.
Mineralocorticoids and glucocorticoids may be lost simultaneously or
sequentially.
PGA type 1 also is called autoimmune
polyendocrinopathy-candidiasis-ectodermal dystrophy (APECED). Other
endocrine defects can include gonadal failure (60% female, 14% male),
hypothyroidism (5%), and destruction of the beta cells of the pancreatic islets
and development of insulin-dependent (type 1) diabetes mellitus (14% lifetime
risk). Additional features include hypoplasia of the dental enamel, nail
dystrophy, tympanic membrane sclerosis, vitiligo, keratopathy, and gastric
parietal cell dysfunction resulting in pernicious anemia (13%). Some patients
develop autoimmune hepatitis (12%), malabsorption (variably attributed to
intestinal lymphangiectasia, bacterial overgrowth, or hypoparathyroidism),
asplenism, achalasia, and cholelithiasis . At the outset, only one
organ may be involved, but the number increases with time so that patients
eventually manifest two to five components of the syndrome.
Most patients initially present with oral candidiasis in
childhood; it is poorly responsive to treatment and relapses
frequently. Chronic hypoparathyroidism usually occurs before adrenal
insufficiency develops. More than 60% of postpubertal women develop premature
hypogonadism. The endocrine components, including adrenal insufficiency and
hypoparathyroidism, may not develop until the fourth decade, making continued
surveillance necessary.
Type I PGA syndrome is not associated with a particular HLA type and
usually is inherited as an autosomal recessive trait. It may occur sporadically.
The responsible gene, designated as either APECED or AIRE, encodes
a transcription factor that is expressed in thymus and lymph nodes; a variety of
different mutations have been reported. The mechanism by which these mutations
lead to the diverse manifestations of type I PGA is unknown.
Polyglandular Autoimmune Syndrome Type II:
PGA type II is characterized by two or more of the
endocrinopathies listed above. Most often these endocrinopathies
include primary adrenal insufficiency, Graves' disease or autoimmune
hypothyroidism, type 1 diabetes mellitus, and primary hypogonadism. Because
adrenal insufficiency is relatively rare, it is used frequently to define the
presence of the syndrome. Among patients with adrenal insufficiency, type 1
diabetes mellitus coexists in 52% and autoimmune thyroid disease occurs in 69%.
However, many patients with antimicrosomal and antithyroglobulin antibodies
never develop abnormalities of thyroid function. Thus, increased antibody titers
alone are poor predictors of future disease. Other associated conditions include
hypophysitis, celiac disease (2–3%), atrophic gastritis, and pernicious anemia
(13%). Vitiligo, which is caused by antibodies against the melanocyte, and
alopecia are less common than in the type I syndrome. Mucocutaneous
candidiasis does not occur. A few patients develop a late-onset, usually
transient hypoparathyroidism caused by antibodies that compete with PTH for
binding to the PTH receptor. Up to 25% of patients with myasthenia gravis and an
even higher percentage who have myasthenia and a thymoma have PGA type II.
The type II syndrome is familial in nature, often transmitted as an
autosomal dominant trait with incomplete penetrance. As in many of the
individual autoimmune endocrinopathies, certain HL-DR3 and -DR4 alleles increase
disease susceptibility; several different genes probably contribute to the
expression of this syndrome.
A variety of autoantibodies are seen in PGA type II,
including antibodies directed against
(1) thyroid antigens such as thyroid
peroxidase, thyroglobulin, and the thyroid-stimulating hormone (TSH) receptor;
(2) adrenal side chain cleavage enzyme, steroid 21-hydroxylase, or ACTH
receptor; and
(3) pancreatic islet glutamic acid decarboxylase or the insulin
receptor, among others.
The roles of cytokines such as interferon and
cell-mediated immunity are unclear.
Diagnosis:
The clinical manifestations of adrenal insufficiency often
develop slowly, may be difficult to detect, and can be fatal if not diagnosed
and treated appropriately. Thus, prospective screening should be performed
routinely in all patients and family members at risk for PGA types I and II. The
most effective screening test for adrenal disease is a cosyntropin stimulation
test . A fasting blood glucose level can be obtained to screen for
hyperglycemia. Additional screening tests should include measurements of TSH,
luteinizing hormone, follicle-stimulating hormone, and, in men, testosterone
levels. In families with suspected type I PGA syndrome, calcium and
phosphorus levels should be measured. These screening studies should be
performed every 1–2 years up to about age 50 in families with PGA type II syndrome and until about
age 40 in patients with type I syndrome. Screening measurements of autoantibodies against
potentially affected endocrine organs are of uncertain prognostic value.
The
differential diagnosis of PGA syndrome should include the
-DiGeorge syndrome
(hypoparathyroidism due to glandular agenesis and mucocutaneous candidiasis)
-Kearns-Sayre syndrome (hypoparathyroidism, primary hypogonadism, type 1
diabetes mellitus, and panhypopituitarism)
-Wolfram's syndrome (congenital
diabetes insipidus and diabetes mellitus)
-IPEX syndrome
(immunodysregulation, polyendocrinopathy, and enteropathy,
X-linked)
-congenital rubella (type 1 diabetes mellitus and
hypothyroidism).
Treatment: Polyglandular Autoimmune Syndrome
With the exception of Graves' disease, the management of
each of the endocrine components of the disease involves hormone replacement. Some aspects of
therapy merit special emphasis.
Primary hypothyroidism can mask adrenal
insufficiency by prolonging the half-life of cortisol; consequently,
administration of thyroid hormone to a patient with unsuspected adrenal
insufficiency can precipitate adrenal crisis. Thus, all patients with
hypothyroidism in the context of PGA syndrome should be screened for adrenal disease and, if it
is present, treated with glucocorticoids before or concurrently with thyroid
hormone therapy.
Hypoglycemia or decreasing insulin requirements in a patient
with diabetes mellitus type 1 may be the earliest symptom of adrenal
insufficiency. Consequently, such patients should be screened for adrenal
disease.
Treatment of mucocutaneous candidiasis with ketoconazole may induce
adrenal insufficiency. This drug also may elevate liver enzymes, making the
diagnosis of autoimmune hepatitis more difficult.
Hypocalcemia in PGA type II is
more commonly due to malabsorption associated with celiac disease than to
hypoparathyroidism.
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