Lynley Ward

A Novel Mutation (K378X) in the Sequestosome 1 Gene Associated With Increased NF-κB Signaling and Paget's Disease of Bone With a Severe Phenotype†

Sequestosome 1/p62 (p62) mutations are associated with PDB; however, there are limited data regarding functional consequences. We report a novel mutation in exon 7 (K378X) in a patient with polyostotic Pagets disease of bone. p62 mutants increased NF‐κB activation and significantly potentiated osteoclast formation and bone resorption in human primary cell cultures.

Sequestosome 1 Mutations in Paget's Disease of Bone in Australia: Prevalence, Genotype/Phenotype Correlation, and a Novel Non-UBA Domain Mutation (P364S) Associated With Increased NF-κB Signaling Without Loss of Ubiquitin Binding†‡

Previously reported Sequestosome 1(SQSTM1)/p62 gene mutations associated with Pagets disease of bone (PDB) cluster in, or cause deletion of, the ubiquitin‐associated (UBA) domain. The aims of this study were to examine the prevalence of SQSTM1 mutations in Australian patients, genotype/phenotype correlations and the functional consequences of a novel point mutation (P364S) located upstream of the UBA. Mutation screening of the SQSTM1 gene was conducted on 49 kindreds with PDB. In addition, 194 subjects with apparently sporadic PDB were screened for the common P392L mutation by restriction enzyme digestion. HEK293 cells stably expressing RANK were co‐transfected with expression plasmids for SQSTM1 (wildtype or mutant) or empty vector and a NF‐κB luciferase reporter gene. GST‐SQSTM1 (wildtype and mutant) proteins were used in pull‐down assays to compare monoubiquitin‐binding ability. We identified SQSTM1 mutations in 12 of 49 families screened (24.5%), comprising 9 families with the P392L mutation and 1 family each with the following mutations: K378X, 390X, and a novel P364S mutation in exon 7, upstream of the UBA. The P392L mutation was found in 9 of 194 (4.6%) patients with sporadic disease. Subjects with SQSTM1 mutations had more extensive disease, but not earlier onset, compared with subjects without mutations. In functional studies, the P364S mutation increased NF‐κB activation compared with wildtype SQSTM1 but did not reduce ubiquitin binding. This suggests that increased NF‐κB signaling, but not the impairment of ubiquitin binding, may be essential in the pathogenesis of PDB associated with SQSTM1 mutations.

Common susceptibility alleles and SQSTM1 mutations predict disease extent and severity in a multinational study of patients with Paget's disease

Pagets disease of bone (PDB) has a strong genetic component. Here, we investigated possible associations between genetic variants that predispose to PDB and disease severity. Allelic variants identified as predictors of PDB from genome‐wide association studies were analyzed in 1940 PDB patients from the United Kingdom, Italy, Western Australia, and Spain. A cumulative risk allele score was constructed by adding the variants together and relating this to markers of disease severity, alone and in combination with SQSTM1 mutations. In SQSTM1‐negative patients, risk allele scores in the highest tertile were associated with a 27% increase in disease extent compared with the lowest tertile (p < 0.00001) with intermediate values in the middle tertile (20% increase; p = 0.0007). The effects were similar for disease severity score, which was 15% (p = 0.01) and 25% (p < 0.00001) higher in the middle and upper tertiles, respectively. Risk allele score remained a significant predictor of extent and severity when SQSTM‐positive individuals were included, with an effect size approximately one‐third of that observed with SQSTM1 mutations. A genetic risk score was developed by combining information from both markers, which identified subgroups of individuals with low, medium, and high levels of severity with a specificity of 70% and sensitivity of 55%. Risk allele scores and SQSTM1 mutations both predict extent and severity of PDB. It is possible that with further refinement, genetic profiling may be of clinical value in identifying individuals at high risk of severe disease who might benefit from enhanced surveillance and early intervention.

Postpartum thyroid dysfunction and the long-term risk of hypothyroidism: results from a 12-year follow-up study of women with and without postpartum thyroid dysfunction

Background  The long‐term risk of hypothyroidism following postpartum thyroid dysfunction (PPTD) is uncertain. Most previous studies have been small, short‐term or have lacked a control group.

Bisphosphonate Therapy for Paget's Disease in a Patient with Hypoparathyroidism: Profound Hypocalcemia, Rapid Response, and Prolonged Remission

Bisphosphonate treatment for severe Pagets disease leads to hypocalcemia followed by a secondary hyperparathyroid response to restore normocalcemia. A case is presented of a 60‐year‐old woman with polyostotic Pagets disease and postsurgical hypoparathyroidism. In 1993 her Pagets disease—alkaline phosphatase (ALP), 1260 U/liter (35–135 U/liter), and fasting urinary hydroxyproline excretion, 13.7 μmol/liter GF (0.4–1.9 μmol/liter)—was treated with intravenous pamidronate. Symptomatic hypocalcemia followed the first 60‐mg dose, requiring large doses of calcium supplementation and calcitriol. Pamidronate therapy to a total dose of 360 mg was followed by rapid and prolonged remission with indices of bone turnover in the normal range within 2 months and persisting for at least 19 months after treatment. In 1999 relapse of Pagets disease—ALP, 511 U/liter (35–135 U/liter), and fasting urinary deoxypyridinoline/creatinine 53.1 μmol/mol (5–27 μmol/mol)—was treated with alendronate, 10 mg daily. Symptomatic hypocalcemia occurred again, requiring increased calcium and calcitriol therapy. Indices of bone turnover were within the normal range 9 weeks after the start of therapy. These responses were significantly more rapid and sustained than those observed in euparathyroid subjects. This case suggests that the lack of parathyroid response may modify the response to bisphosphonates by: (a) increasing intrinsic uptake of bisphosphonate into the pagetic skeleton, allowing response to a smaller dose; (b) increasing duration and severity of hypocalcemia after bisphosphonate therapy; and (c) removing the hyperparathyroid drive to reactivation of pagetic osteoclasts, leading to a prolonged remission. These observations have implications for optimizing bisphosphonate therapy both in Pagets disease and in osteoporosis.

Prevention of appendicular bone loss in Paget’s disease following treatment with intravenous pamidronate disodium

It has been shown previously that intravenous pamidronate treatment for severe Pagets disease is associated with appendicular bone loss. This 2 year study was designed to determine whether cotreatment with calcitriol and a calcium supplement would prevent this. Intravenous pamidronate was used to treat 49 patients with symptomatic Pagets disease. Patients were stratified into two groups of differing biochemical severity based on hydroxyproline excretion (HypE) expressed as micromoles per liter of glomerular filtrate (GF): (1) a severe group with HypE > 10 micromol/L GF; and (2) a moderate group with HypE 5-10 micromol/L GF. Within each group, patients were randomly allocated to receive supplements of calcium and calcitriol (supplemented) or no supplements (unsupplemented) after initiation of pamidronate therapy. The severe group received 360 mg of pamidronate as six doses of 60 mg once weekly and the moderate group received 240 mg as four weekly doses of 60 mg. Patients were followed for 24 months following treatment and had serial bone densitometry of the forearm measured as well as urine and plasma biochemistry. When the groups were combined, the unsupplemented patients showed a decrease in bone mineral density (BMD) at the ultradistal forearm site, which persisted to 24 months. Those supplemented with calcium and calcitriol showed an increase in BMD and the difference between the two groups was significant at all times posttreatment (p < 0.03). When the groups were analyzed separately, those with moderate disease again showed significant differences in BMD between supplemented and unsupplemented patients at all timepoints. In the severe group, the differences did not reach statistical significance due to smaller patient numbers. Similar changes in BMD were also observed at the forearm shaft site. When serial parathyroid hormone (PTH) levels (with the moderate and severe groups combined) were plotted against time since treatment the rise in PTH in the supplemented patients was less than the rise in the unsupplemented patients (p < 0.04). These results suggest that forearm bone loss after intravenous pamidronate treatment for moderate-to-severe Pagets disease can largely be prevented by administration of calcium and calcitriol. The mechanism may be a blunting of the secondary hyperparathyroidism that occurs after intravenous pamidronate. These findings may have wider application in moderate-to-severe Pagets disease treated with other bisphosphonates.

Bone density changes in Paget's disease 2 years after iv pamidronate: profound, sustained increases in pagetic bone with severity-related loss in forearm nonpagetic cortical bone.

Bone mineral density (BMD) was measured at three sites (forearm, spine, and hip) using dual X-ray and single-photon absorptiometry in 68 patients with Pagets disease before and after treatment with iv pamidronate. Patients were treated according to the severity of their disease; the mild category (Group I, hydroxyproline excretion (Hyp(E)) <5.0 micromol/L GF) received 120 mg, the moderate category (Group II, Hyp(E) 5.0-9.99 micromol/GF) 180 mg, and the severe category (Group III, > or = 10.0 micromol/GF) 240 mg. Group I was followed for 1 year, and both Groups II and III for 2 years. At the lumbar spine in pagetic bone there were no differences between groups in early responses, with a profound increase 6 months after treatment 20.5 +/- 2.0% above baseline values to 1.403 +/- 0.063 g/cm(2) (mean +/- SEM)(P < 0.001). This increase in BMD was sustained to 2 years (1.355 +/- 0.078 g/cm(2), P < 0.001) and was 15.0 +/- 2.2% above baseline values. The pagetic total hip BMD increased after treatment in all groups, with a mean rise of 10.4 +/- 1.4% at 1 year to 1.505 +/- 0.083 g/cm(2) (P < 0.01). At the pagetic femoral neck the response was similar, with a peak significant rise at 1 year of 10.7 +/- 1.7% to 1.403 +/- 0.097 g/cm(2) (P < 0.01). In nonpagetic spinal bone there were no differences between the group responses, with a combined mean increase of 4.3 +/- 0.7% at 1 year to 0.999 +/- 0.027 g/cm(2) (P < 0.01). In both Groups II and III the increase in BMD was significantly higher than baseline values at 1 and 2 years (P < 0.01). In the nonpagetic total hip BMD remained unchanged over the 2-year period and likewise, there were no significant changes from baseline at the nonpagetic femoral neck site. In the nonpagetic forearm we found a significant loss in BMD at the ultradistal (mainly trabecular), midregion (80% cortical), and proximal shaft (95% cortical) sites in Group III, persisting to 2 years at the latter two sites. The increase in bone density in pagetic bone, persisting at least 2 years, provides a new modality of assessment of the response of pagetic bone to treatment and suggests a mechanism for the reduction in fracture risk in such bone after effective bisphosphonate treatment. Severity-dependent nonpagetic forearm bone loss, persisting to 2 years at cortical sites, suggests a potential drug-induced fracture risk at the forearm and possibly elsewhere in the absence of appropriate preventive cotreatment.

Low urinary iodine postpartum is associated with hypothyroid postpartum thyroid dysfunction and predicts long-term hypothyroidism

Background  Postpartum thyroid dysfunction (PPTD) is characterized by an early hyperthyroid phase followed, with peak prevalence at 6 months, by a hypothyroid phase which carries a risk of long‐term hypothyroidism. Iodine has a major effect on thyroid function. Western Australia has previously been shown to be iodine replete.