ABCG5 p.Glu77*
| ClinVar: |
c.229G>T
,
p.Glu77*
D
, Pathogenic
|
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[hide] Stomatocytic haemolysis and macrothrombocytopenia ... Br J Haematol. 2005 Jul;130(2):297-309. Rees DC, Iolascon A, Carella M, O'marcaigh AS, Kendra JR, Jowitt SN, Wales JK, Vora A, Makris M, Manning N, Nicolaou A, Fisher J, Mann A, Machin SJ, Clayton PT, Gasparini P, Stewart GW
Stomatocytic haemolysis and macrothrombocytopenia (Mediterranean stomatocytosis/macrothrombocytopenia) is the haematological presentation of phytosterolaemia.
Br J Haematol. 2005 Jul;130(2):297-309., [PMID:16029460]
Abstract [show]
Phytosterolaemia (sitosterolaemia) is a recessively inherited metabolic condition in which the absorption of both cholesterol and plant-derived cholesterol-like molecules at the gut is unselective and unrestricted. In haematology, Mediterranean stomatocytosis or Mediterranean macrothrombocytopenia is a poorly understood haematological condition that combines stomatocytic haemolysis with the presence of very large platelets. Five pedigrees showing this haematology were identified. Gas chromatography mass spectrometry (GC-MS) showed that all of the patients with this highly specific haematology had grossly elevated levels of phytosterols in the blood, diagnostic of phytosterolaemia. All showed mutations in the ABCG5 and ABCG8 previously linked to phytosterolaemia. Three pedigrees showed five new mutations, while two pedigrees showed the common W361X mutation in ABCG8. We draw the following four conclusions: (i) that Mediterranean stomatocytosis/macrothrombocytopenia is caused by an excess of phytosterols in the blood; (ii) that phytosterolaemia, which does not respond to standard statin treatment, can be diagnosed via the distinctive haematology described here, even when the cholesterol is normal; (iii) that phytosterolaemia should be considered in the differential diagnosis of all patients with large platelets; and (iv) that the platelet size should be noted in patients with hypercholesterolaemia.
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127 Families A and B showed mutations in ABCG5: family A showed E77X (with affected members homozygous), while family B showed E146X and IVS11+3insT.
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ABCG5 p.Glu77* 16029460:127:60
status: VERIFIED174 Family Sitosterol level (lmol/l) ABCG5 ABCG8 A E77X (229G>T) A-I-2 44 m/n A-II-1 1471 m/m A-II-2 17 n/n A-II-3 57 n/n A-II-4 970 m/m A-II-5 625 m/m A-II-9 508 m/m B IVS11+3insT R50C (148C>T) E146X (436G>T), M622V (1864A>G) B-I-1 77 n/n m/n B-I-2 42 m/n n/n B-II-1 2230 m/n m/n B-II-2 2350 m/n m/n B-II-3 137 n/n m/n C Q604E (1810C>G) Q271X (811C>T) IV9-3insT IV8-1G/A C54Y (161G>A) C-I-1 114 m/n n/n m/n m/n C-I-2 29 m/m m/n n/n m/m C-II-1 2100 m/n m/n m/n m/n C-II-2 2580 m/n m/n m/n m/n D W361X (1083G>A) D-I-1 22 m/n D-II-1 715 m/m E W361X (1083G>A) E-I-1 23 m/n E-II-1 1844 m/m E-II-2 21 n/n Mutations are shown in bold and large font.
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ABCG5 p.Glu77* 16029460:174:47
status: VERIFIED[hide] Adrenal insufficiency in phytosterolaemia. Eur J Endocrinol. 2007 Aug;157 Suppl 1:S61-5. Mushtaq T, Wales JK, Wright NP
Adrenal insufficiency in phytosterolaemia.
Eur J Endocrinol. 2007 Aug;157 Suppl 1:S61-5., [PMID:17785700]
Abstract [show]
BACKGROUND: Phytosterolaemia (sitosterolaemia) is a rare autosomal recessive condition caused by mutations on the ABCG5 and ABCG8 gut transporter proteins. This leads to accumulation of plant-derived cholesterol-like molecules in blood and tissues. CASE: We describe a family of Bangladesh origin, where three siblings (two males and one female) have homozygous mutations for phytosterolaemia, and exhibit short stature and adrenal failure with the female having ovarian failure. FINDINGS: The index case (18-year-old female) and her sibling (16 years) have adrenal insufficiency with hyperpigmentation and raised levels of ACTH, at 367 and 690 ng/l respectively. The youngest child at 7 years has normal adrenal function. In addition, the index case has ovarian failure and sibling 2 has partial growth hormone deficiency. CONCLUSION: Although short stature is a recognised phenomenon, no previous association has been made between phytosterolaemia and other endocrine abnormalities. We postulate that the elevated plant sterol levels in phytosterolaemia may interfere with endocrine hormone synthesis; in particular, we present evidence that adrenal cholesterol metabolism may be preferentially affected, accounting for the adrenal insufficiency.
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25 This family had mutations in ABCG5 at E77X with affected members being homozygous.
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ABCG5 p.Glu77* 17785700:25:38
status: VERIFIED85 All affected individuals in our family have short stature; the family has mutations in ABCG5 at E77X, whereas the most common mutation described is in ABCG8 (4, 6) and it is possible that differences in gene mutations could account for the adrenal abnormalities, but this remains speculative.
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ABCG5 p.Glu77* 17785700:85:96
status: VERIFIED