Causative homozygous or compound heterozygous mutations in the glucose-6-phosphatase, catalytic subunit 3 gene (G6PC3) have recently been described for a sub-group of patients with severe congenital neutropenia (SCN) (Arostegui et al, 2009; Boztug et al, 2009, 2011; Xia et al, 2009; Germeshausen et al, 2010; Banka et al, 2011a,b; Hayee et al, 2011). In addition to neutropenia and recurrent infections, mutant-positive patients are reported to have varied other congenital abnormalities, such as a prominent superficial venous pattern, structural heart defects, urogenital malformations, skeletal abnormalities, primary pulmonary hypertension, growth and developmental delay (Boztug et al, 2011). Several reports have also indicated considerable variation in bone marrow (BM) morphology, including a lack of the myeloid maturation arrest characteristic of SCN (McDermott et al, 2010; Banka et al, 2011b). We screened 108 CN patients or kindreds, known wild-type for the ELANE, HAX1 and WAS genes, for G6PC3 mutations and identified further phenotypic heterogeneity, in that two mutant-positive patients had neutropenia alone. Another presented with isolated neutropenia and was found to have clinically asymptomatic cardiac abnormalities. The study had Local Regional Ethical Committee approval. Informed consent was obtained from patients and/or their parents. Polymerase chain reaction (PCR) amplicons of the six G6PC3 exons were screened using denaturing high performance liquid chromatography (Transgenomic Limited, Glasgow, UK) (see Table S1). Samples with abnormal chromatograms were sequenced. Mutations were confirmed by PCR with mismatch primers and restriction enzyme digestion (Table S2). Three different homozygous G6PC3 mutations were detected in four of the 108 patients/kindreds studied. Parents of affected individuals were all heterozygous for the mutation. Patient 1 (born 1982, from Pakistan, parents first cousins) had a homozygous 21 bp deletion in exon 1 (c.190_210del) resulting in an in-frame deletion of seven amino acids in the second trans-membrane domain (p.Thr64_Ile70del) (Fig 1A, B). The patients’ phenotype was similar to that of the G6PC3-mutated patients described by Boztug et al (2009). In addition to neutropenia (absolute neutrophil count [ANC] 0·1 × 109/l), first noted aged 9 years, he suffered from recurrent oral ulcers, aspergillus infection and recurrent episodic bacterial pneumonia, but responded to standard antibiotic therapy and now receives regular granulocyte colony-stimulating factor (G-CSF). He was born with an atrial septal defect and has granulomatous inflammatory bowel disease, splenomegaly, digital clubbing and short stature. His affected sister is also homozygous G6PC3 mutant and has a similar phenotype but without the atrial septal defect and opportunistic infection. Fig 1 WAVE chromatograms, restriction enzyme digests and haplotype study of G6PC3 mutant-positive kindreds. (A) WAVE chromatograms of exon 1 and exon 5 polymerase chain reaction (PCR) products from mutation-positive patients mixed with known wild-type (WT) ... Patient 2 (born 2001, from Turkey, consanguineous parents) has a novel c.623T>G mutation in exon 5 resulting in p.Leu208Arg (Fig 1A, B). She presented in infancy with severe neutropenia (ANC T resulting in p.Pro44Ser (Fig 1A, B). Both have normal echocardiograms, lack other congenital abnormalities and have had normal growth and development. Patient 3 (born 1989, non-consanguineous parents) presented with neutropenia at age 13 years with intermittent mouth ulcers (ANC 0·4 × 109/l) and has suffered a single bout of myositis. His only treatment has been intermittent G-CSF for recurring severe mouth ulcers. Patient 4 (born 2002, parents first cousins) presented at 3 years of age with recurrent upper respiratory and chest infections, and has had two instances of gluteal abscesses. He has otherwise been well, with a recent ANC of 0·45 × 109/l, and has not received G-CSF. Of note, both patients have normocellular BM morphology with normal neutrophils, although slightly left-shifted myelopoiesis was reported for Patient 3. The mutation was not detected in samples from 54 haematologically normal individuals of Pakistani origin but was reported recently in an SCN patient, also of Pakistani origin, who similarly had normal BM cellularity without maturation arrest, although further information on the patient was not available (Banka et al, 2011b). Pro44 and Leu208 are both conserved amongst species (Fig S1) and, due to their trans-membranous location, the mutations are predicted to be disruptive to normal G6PC3 function. A possible ancestral founder for the p.Pro44Ser mutation was identified from a common haplotype consisting of two highly polymorphic micro-satellite markers and four single nucleotide polymorphisms spanning a maximum of 4·8Mb in the two unrelated p.Pro44Ser-mutated patients (Fig 1C) (PCR primers and conditions in Table S3). None of 20 Pakistani control samples carried the entire six-marker haplotype, and the probability of this conserved haplotype homozygously presenting in the Pakistani population would be very low. A functional impact on apoptosis consistent with a pathogenic mutation was demonstrated for purified neutrophils from Patients 1 and 4 using previously published assays (Smith et al, 2009). Both patients had a high level of spontaneous apoptosis (26·4%, 38·9% non-viable cells respectively at time zero compared to 3·6 ± 4·7% [mean±2SD] for 12 normal controls) (Fig 2). After 3 h incubation this level had significantly increased in Patient 1 compared to controls (58·2% versus 10·5 ± 7·1%) and was further enhanced in the presence of staurosporine (92·8% versus 12·9% ± 9·5% at 3 h). For Patient 4, the level of apoptosis only increased in the presence of staurosporine (36·4% without, 69·5% with staurosporine at 3 h). In addition, severe neutrophil glycosylation defects have been reported for Patients 1 and 3 (Hayee et al, 2011). Fig 2 Percentage of non-viable neutrophils in patients with the p.Thr64_Ile70del and p.Pro44Ser mutations, their carrier parents and controls. Graphical representation of the percentage of non-viable neutrophils (Annexin V-positive, propidium iodide-negative ... Overall, the frequency of G6PC3 mutations in our SCN cohort was 3% (4 of 155 patients/kindreds), although this incidence is likely to depend on the racial composition of the patient population investigated. No evidence has been found for a G6PC3 genotype-phenotype correlation (Banka et al, 2011b; Boztug et al, 2011), and it has been suggested that different founder mutations may exist according to racial groups (Banka et al, 2011b). Whether such variable genetic inheritance patterns has a wider impact on phenotype will require analysis of many cases, and the underlying reasons for the phenotypic heterogeneity associated with G6PC3 mutations are therefore currently unclear. Nevertheless, based on our observations of milder disease, isolated neutropenia and normal BM morphology but evident functional abnormalities in our two p.Pro44Ser-mutated cases, we would recommend G6PC3 screening as part of the work-up of all CN/SCN patients lacking other mutations, irrespective of the presence of additional congenital abnormalities.