Clinical Drug Experience Knowledgebase

Galactosaemia, a Modifiable Multi-system Glycosylation Disorder?

Classical Galactosaemia is an inherited disorder of galactose metabolism caused by profound deficiency of galactose-1-phosphate uridyltransferase (GALT: EC 2.7.712). This results in a systemic accumulation of toxic galactose intermediates and a decrease in the level of UDP-galactose, a required sugar for glycosylation. Galactosaemia has a relatively high incidence in Ireland, (1:19,000 births) presenting a particular public health problem. The neonatal life-threatening phenotype (liver disease, coagulopathy and sepsis) is rescued by restriction of dietary galactose. However, outcomes of treatment are disappointing beyond the neonatal period (even after successful newborn screening, early treatment and long term compliance). The majority of Irish patients harbour the severe Q188R Galt mutation.

56.5% of Irish patients ≥ 6yrs have IQs ≤ 79; and 91.2% of Irish female patients ≥ 13yrs have Premature Ovarian Insufficiency (POI). Unfortunately, the basic pathophysiology of this condition remains enigmatic with limited treatment approaches.

In their earlier work, the investigators reported very considerable variation in patient outcomes, even among siblings. The investigators have proposed that these differences are determined by variation in galactose accessory pathways (beyond the GALT deficiency). This may result in variable galactose tolerance in patients with linked variation in glycosylation pathways which could allow for enhanced UDP-galactose bioavailability essential for glycosylation. In their previous and current work the investigators have identified ongoing dysregulation of glycoprotein formation and expression of genes involved in glycan biosynthesis and cell signalling pathways in treated Galactosaemia patients.

The present proposal, which builds on published previous work, enables the investigators to establish that Galactosaemia is a modifiable, multi-systemic glycosylation defect. The overall objectives of the work are to progress the development of biochemical markers (IgG N-glycan analysis) as prognostic indices for potentially modifiable relevant pathways. The investigators consider how the phenotype could be relaxed in some patients with Classical Galactosaemia, initially by studies of modification of exogenous galactose requirements to identify if the ongoing glycan processing defects identified may be improved reflecting accessory pathways of galactose disposal.

Study Aim: Expand previous and published work using IgG N-glycan analysis to examine the glycosylation status of treated adult Galactosaemia patients in a larger study and develop this test as a reliable diagnostic tool. The investigators also carry out a pilot study to examine the effects of diet relaxation in paediatric patients (5-12 yrs) aiming to determine optimum galactose intake levels for this cohort with the hope of preventing long-term complications later in life. The investigators propose that this research offers new insights into the ongoing pathophysiology of this rare disorder with the possibility of developing new treatment targets, which over time could be cost-effective by preventing major disability.