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Disease
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Drug
Enzyme
Compound
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Target Concepts:
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Query: UMLS:C0026827 (
hypotonia
)
5,860
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A mutation in
ORAI1
, the gene encoding the pore-forming subunit of the Ca(2+)-release-activated Ca(2+) (
CRAC
) channel, abrogates the store-operated entry of Ca(2+) into cells and impairs lymphocyte activation. Stromal interaction molecule 1 (STIM1) in the endoplasmic reticulum activates
ORAI1
-
CRAC
channels. We report on three siblings from one kindred with a clinical syndrome of immunodeficiency, hepatosplenomegaly, autoimmune hemolytic anemia, thrombocytopenia, muscular
hypotonia
, and defective enamel dentition. Two of these patients have a homozygous nonsense mutation in STIM1 that abrogates expression of STIM1 and Ca(2+) influx.
...
PMID:STIM1 mutation associated with a syndrome of immunodeficiency and autoimmunity. 1942 Mar 66
Lymphocyte activation requires Ca(2+) influx through specialized Ca(2+) channels in the plasma membrane. In T cells the predominant Ca(2+) channel is the Ca(2+) release activated Ca(2+) (
CRAC
) channel encoded by the gene
ORAI1
.
ORAI1
is activated by stromal interaction molecule (STIM) 1 that is localized in the ER where it senses the concentration of stored Ca(2+). Following antigen binding to immunoreceptors such as the TCR, ER Ca(2+) stores are depleted, STIM1 is activated and
ORAI1
-
CRAC
channels open resulting in what is referred to as store-operated Ca(2+) entry (SOCE). Mutations in
ORAI1
and STIM1 genes in human patients that lead to expression of non-functional
ORAI1
or complete lack of
ORAI1
or STIM1 protein are associated with a unique clinical phenotype that is characterized by immunodeficiency, muscular
hypotonia
and anhydrotic ectodermal dysplasia, as well as, in the case of STIM1 deficiency, autoimmunity and lymphoproliferative disease. The immunodeficiency in these patients is due to a severe defect in T cell activation but not in lymphocyte development. This review describes the immunological and non-immunological phenotypes of patients with defects in SOCE and
CRAC
channel function and discusses them in the context of similar immunodeficiency diseases and animal models of
ORAI1
and STIM1 function.
...
PMID:Immunodeficiency due to mutations in ORAI1 and STIM1. 2018 84
Ca(2+) release-activated Ca(2+) (
CRAC
) channels mediate a specific form of Ca(2+) influx called store-operated Ca(2+) entry (SOCE) that contributes to the function of many cell types.
CRAC
channels are composed of
ORAI1
proteins located in the plasma membrane, which form its ion-conducting pore.
ORAI1
channels are activated by stromal interaction molecule (STIM) 1 and STIM2 located in the endoplasmic reticulum. Loss- and gain-of-function gene mutations in
ORAI1
and STIM1 in human patients cause distinct disease syndromes.
CRAC
channelopathy is caused by loss-of-function mutations in
ORAI1
and STIM1 that abolish
CRAC
channel function and SOCE; it is characterized by severe combined immunodeficiency (SCID)-like disease, autoimmunity, muscular
hypotonia
, and ectodermal dysplasia, with defects in sweat gland function and dental enamel formation. The latter defect emphasizes an important role of
CRAC
channels in tooth development. By contrast, autosomal dominant gain-of-function mutations in
ORAI1
and STIM1 result in constitutive
CRAC
channel activation, SOCE, and increased intracellular Ca(2+) levels that are associated with an overlapping spectrum of diseases, including nonsyndromic tubular aggregate myopathy (TAM) and York platelet and Stormorken syndromes. The latter two syndromes are defined, besides myopathy, by thrombocytopenia, thrombopathy, and bleeding diathesis. The fact that myopathy results from both loss- and gain-of-function mutations in
ORAI1
and STIM1 highlights the importance of
CRAC
channels for Ca(2+) homeostasis in skeletal muscle function. The cellular dysfunction and clinical disease spectrum observed in mutant patients provide important information about the molecular regulation of
ORAI1
and STIM1 proteins and the role of
CRAC
channels in human physiology.
...
PMID:Diseases caused by mutations in ORAI1 and STIM1. 2646 93
Enamel mineralization relies on Ca
2+
availability provided by Ca
2+
release activated Ca
2+
(CRAC) channels. CRAC channels are modulated by the endoplasmic reticulum Ca
2+
sensor STIM1 which gates the pore subunit of the channel known as
ORAI1
, found the in plasma membrane, to enable sustained Ca
2+
influx. Mutations in the STIM1 and
ORAI1
genes result in CRAC channelopathy, an ensemble of diseases including immunodeficiency, muscular
hypotonia
, ectodermal dysplasia with defects in sweat gland function and abnormal enamel mineralization similar to amelogenesis imperfecta (AI). In some reports, the chief medical complain has been the patient's dental health, highlighting the direct and important link between CRAC channels and enamel. The reported enamel defects are apparent in both the deciduous and in permanent teeth and often require extensive dental treatment to provide the patient with a functional dentition. Among the dental phenotypes observed in the patients, discoloration, increased wear, hypoplasias (thinning of enamel) and chipping has been reported. These findings are not universal in all patients. Here we review the mutations in STIM1 and
ORAI1
causing AI-like phenotype, and evaluate the enamel defects in CRAC channel deficient mice. We also provide a brief overview of the role of CRAC channels in other mineralizing systems such as dentine and bone.
...
PMID:CRAC channels in dental enamel cells. 3011 31
Store-operated Ca
2+
entry (SOCE) is a ubiquitous and essential mechanism regulating Ca
2+
homeostasis in all tissues, and controls a wide range of cellular functions including keratinocyte differentiation, osteoblastogenesis and osteoclastogenesis, T cell proliferation, platelet activation, and muscle contraction. The main SOCE actors are STIM1 and
ORAI1
. Depletion of the reticular Ca
2+
stores induces oligomerization of the luminal Ca
2+
sensor STIM1, and the oligomers activate the plasma membrane Ca
2+
channel
ORAI1
to trigger extracellular Ca
2+
entry. Mutations in
STIM1
and
ORAI1
result in abnormal SOCE and lead to multi-systemic disorders. Recessive loss-of-function mutations are associated with
CRAC
(Ca
2+
release-activated Ca
2+
) channelopathy, involving immunodeficiency and autoimmunity, muscular
hypotonia
, ectodermal dysplasia, and mydriasis. In contrast, dominant
STIM1
and
ORAI1
gain-of-function mutations give rise to tubular aggregate myopathy and Stormorken syndrome (TAM/STRMK), forming a clinical spectrum encompassing muscle weakness, thrombocytopenia, ichthyosis, hyposplenism, short stature, and miosis. Functional studies on patient-derived cells revealed that
CRAC
channelopathy mutations impair SOCE and extracellular Ca
2+
influx, while TAM/STRMK mutations induce excessive Ca
2+
entry through SOCE over-activation. In accordance with the opposite pathomechanisms underlying both disorders,
CRAC
channelopathy and TAM/STRMK patients show mirror phenotypes at the clinical and molecular levels, and the respective animal models recapitulate the skin, bones, immune system, platelet, and muscle anomalies. Here we review and compare the clinical presentations of
CRAC
channelopathy and TAM/STRMK patients and the histological and molecular findings obtained on human samples and murine models to highlight the mirror phenotypes in different tissues, and to point out potentially undiagnosed anomalies in patients, which may be relevant for disease management and prospective therapeutic approaches.
...
PMID:
STIM1
/
ORAI1
Loss-of-Function and Gain-of-Function Mutations Inversely Impact on SOCE and Calcium Homeostasis and Cause Multi-Systemic Mirror Diseases. 3325 Jul 86
