Reduced Heparan Sulfate Accumulation in Enterocytes Contributes to Protein-Losing Enteropathy in a Congenital Disorder of Glycosylation

Westphal, Vibeke; Murch, Simon; Kim, Soohyun; Srikrishna, Geetha; Winchester, Bryan; Day, Richard M.; Freeze, Hudson H.

doi:10.1016/s0002-9440(10)64830-4

Cited by 90 publications

(58 citation statements)

References 54 publications

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“…The p.A333V mutation is associated with a mild to moderate phenotype which indicates that the novel frameshift mutation (c.1338dupA), which results in the formation of a truncated ALG6 protein, probably explains the severe phenotype and early death of the patient as well as the unusually low serum tetrasialotransferrin. The phenotypic variation from the typical ALG6 deficiency concurs with previous literature of rare ALG6-CDG cases with multiple organ involvement and intestinal abnormality, e.g., PLE (Westphal et al 2000b;Newell et al 2003;Al-Owain et al 2010). Patients 2, 3, 4, and 5 presented with the classical ALG6-CDG phenotype comprising of a variable degree of neurological involvement, including hypotonia and resistant epilepsy.…”

Section: Discussionsupporting

confidence: 87%

“…Patient 1 showed a severe, earlyonset, neuro-gastrointestinal presentation comparable with previously described case studies (Westphal et al 2000b;Damen et al 2004;Newell et al 2003). The patient was compound heterozygous for the prevalent c.998C>T (p.A333V) missense mutation (originally described by Imbach et al 1999) and a novel c.1338dupA (p.V447SfsX44) frameshift mutation in the ALG6 gene.…”

Section: Discussionsupporting

confidence: 62%

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ALG6-CDG in South Africa: Genotype-Phenotype Description of Five Novel Patients

Dercksen

Crutchley²,

Honey

et al. 2012

JIMD Reports

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Section: Discussionsupporting

confidence: 87%

Section: Discussionsupporting

confidence: 62%

ALG6-CDG in South Africa: Genotype-Phenotype Description of Five Novel Patients

Dercksen

Crutchley²,

Honey

et al. 2012

JIMD Reports

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“…In protein-losing enteropathy (PLE), 2 where plasma proteins leak into the intestine, this essential barrier is impaired (1)(2)(3)(4). PLE develops as a life-threatening complication of seemingly unrelated diseases, e.g.…”

mentioning

confidence: 99%

Heparan Sulfate Plays a Central Role in a Dynamic in Vitro Model of Protein-losing Enteropathy

Bode

Murch

Freeze

2006

Journal of Biological Chemistry

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Protein-losing enteropathy (PLE), the loss of plasma proteins through the intestine, is a symptom in ostensibly unrelated diseases. Emerging commonalities indicate that genetic insufficiencies predispose for PLE and environmental insults, e.g. viral infections and inflammation, trigger PLE onset. The specific loss of heparan sulfate (HS) from the basolateral surface of intestinal epithelial cells only during episodes of PLE suggests a possible mechanistic link. In the first tissue culture model of PLE using a monolayer of intestinal epithelial HT29 cells, we proved that HS loss directly causes protein leakage and amplifies the effects of the proinflammatory cytokine tumor necrosis factor ␣ (TNF␣). Here, we extend our in vitro model to assess the individual and combined effects of HS loss, interferon ␥ (IFN␥), TNF␣, and increased pressure, and find that HS plays a central role in the patho-mechanisms underlying PLE. Increased pressure, mimicking venous hypertension seen in postFontan PLE patients, substantially increased protein leakage, but HS loss, IFN␥, or TNF␣ alone had only minor effects. However, IFN␥ up-regulated TNFR1 expression and amplified TNF␣-induced protein leakage. IFN␥ and TNF␣ compromised the integrity of the HT29 monolayer and made it more susceptible to increased pressure. HS loss itself compromises the integrity of the monolayer, amplifying the effects of pressure, but also amplifies the effects of both cytokines. In the absence of HS a combination of increased pressure, IFN␥, and TNF␣ caused maximum protein leakage. Soluble heparin fully compensated for HS loss, providing a reasonable explanation for patient favorable response to heparin therapy.

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“…The Saccharomyces cerevisiae strain YG227 (Reiss et al, 1996) deficient in ALG6 (a kind gift from Markus Aebi) was grown in standard YPD and SC media (Sherman, 1991). The α1,3 glucosyltransferase complementation using patients ALG6 was done as described (Westphal et al, 2000a;Westphal et al, 2002).…”

Section: Media Strains and Materialsmentioning

confidence: 99%

“…We previously identified a CDG-Ic patient with three mutations in ALG6, one maternal mutation, causing p.Ala333Val, and two paternal mutations, causing p.Ser308Arg and p.Tyr131His (Westphal et al, 2000a). Each mutation was tested for its ability to complement the defective glycosylation of carboxypeptidase Y (CPY) in an alg6 deficient-strain of S. cerevisiae.…”

Section: Ptyr131his In Alg6mentioning

confidence: 99%

Identification of a frequent variant inALG6, the cause of Congenital Disorder of Glycosylation-Ic

et al. 2003

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Congenital Disorder of Glycosylation (CDG) type Ic is caused by mutations in ALG6.This gene encodes an α1,3 glucosyltransferase used for synthesis of the lipid linked oligosaccharide (LLO) precursor of the protein N -glycosylation pathway. CDG-Ic patients have moderate to severe psychomotor retardation, seizures, hypotonia, strabismus, and feeding difficulties. We previously identified a t ypical patient with a heterozygous point mutation, c.391T>C (p.Tyr131His) in ALG6. Using complementation analysis of ALG6-deficient yeast, we show that this alteration is as severe as the most common disease-causing mutation, c998C>T (p. Ala333Val), which occurs in over half of all known CDG-Ic patients. The frequency of c.391T>C (p.Tyr131His) in the US population, is 0.0214, suggesting that homozygotes would occur at a rate of ~1:2,200. We identified one patient with typical CDG-Ic symptoms and a homozygous p.Tyr131His alteration in ALG6.However, in contrast to most CDG patients, her LLO and plasma transferrin glycosylation appeared normal. Thus, it is unclear whether c.391T>C causes CDG-Ic or contributes to the symptoms. Genotyping additional patients with CDG-like symptoms will be required to resolve this issue.

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Reduced Heparan Sulfate Accumulation in Enterocytes Contributes to Protein-Losing Enteropathy in a Congenital Disorder of Glycosylation

Cited by 90 publications

References 54 publications

ALG6-CDG in South Africa: Genotype-Phenotype Description of Five Novel Patients

ALG6-CDG in South Africa: Genotype-Phenotype Description of Five Novel Patients

Heparan Sulfate Plays a Central Role in a Dynamic in Vitro Model of Protein-losing Enteropathy

Identification of a frequent variant inALG6, the cause of Congenital Disorder of Glycosylation-Ic

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