Reduced frequency of blood group Lewis a-b- in female Type 1 diabetes patients.

AIMS: To examine a disputed association between the Lewis(a(-)b(-)) phenotype and Type 1 diabetes (T1D). METHODS: Lewis red blood cell phenotyping was performed for 97 T1D White patients and 100 control subjects using monoclonal antibodies. Two historical cohorts were also included as a control population. RESULTS: T1D patients had a lower frequency (4.1%) of Lewis(a(-)b(-)) blood group compared with simultaneously tested healthy control subjects (10.0%) and the historical control group (11.1%, P = 0.02). Male T1D patients showed a Lewis(a(-)b(-)) frequency of 8.0%, which was similar to both matched healthy male donors (9.8%) and historical (9.5%) male control subjects. Unexpectedly, none of the female T1D patients displayed Lewis(a(-)b(-)) phenotype, vs. 10.3% and 10.8% of female control subjects (P = 0.039 and 0.017). CONCLUSIONS: The Lewis(a(-)b(-)) phenotype occurs less frequently in T1D compared with healthy control subjects with a strong female gender bias.

Mitochondrial diabetes and its lessons for common Type 2 diabetes.

Multiple pathogenic pathways are able to deregulate glucose homoeostasis leading to diabetes. The 3243A>G mutation in the mtDNA (mitochondrial DNA)-encoded tRNALeu,UUR gene was found by us to be associated with a particular diabetic subtype, designated MIDD (maternally inherited diabetes and deafness). This mutation causes an imbalance in the mitochondrion between proteins encoded by the nuclear and mitochondrial genomes, resulting in a gradual deterioration of glucose homoeostasis during life. Remarkably, carriers of the 3243A>G mutation are generally not obese. The mutation also results in enhanced radical production by mitochondria. We propose that this mutation leads to the development of diabetes due to an inappropriate storage of triacylglycerols within adipocytes. The result is a fatty acid-induced deterioration of pancreatic beta-cell function. In combination with an enhanced radical production in the beta-cell due to the mutation, this leads to an age-dependent, accelerated decline in insulin production. In common Type 2 (non-insulin-dependent) diabetes, which is generally associated with obesity, a decline in mitochondrial function in adipose cells seems to result in an inappropriate scavenging of fatty acids by beta-oxidation. As a consequence, a systemic overload with fatty acids occurs, leading to an enhanced decline in beta-cell function due to lipotoxicity.

Mitochondrial diabetes mellitus.

This review discusses the current insight by which mutations in mitochondrial DNA (mtDNA) contribute to the development of particular disease states with emphasis on diabetes mellitus. Mitochondria are the power factories of the cells and produce ATP by oxidizing reducing equivalents via the respiratory chain. These reducing equivalents originate mainly from the citric acid cycle that also occurs within the mitochondria. Human mitochondria contain their own genetic material in the form of circular DNA that encodes for only a fraction of the mitochondrial components. The other mitochondrial components are nuclear encoded. Pathogenic mutations in mtDNA can affect the activity of the respiratory chain, thereby leading to the reduced generation of ATP. However, mitochondria not only produce ATP but they also regulate cytosolic concentrations of signaling molecules such as calcium and iron ions. The metabolic processes within mitochondria such as the citric acid cycle determine the concentration of metabolites that can also act as signalling molecules. Furthermore, the respiratory chain and mitochondrion-associated monoamine oxidase are major producers of reactive oxygen radicals. As a result, mutations in mtDNA can deregulate multiple processes within cells and the balance of this deregulation may contribute to the clinical phenotype.

[From gene to disease; 'maturity-onset diabetes of the young' (MODY), monogenetic inheritable forms of diabetes mellitus]. / Van gen naar ziekte; 'maturity-onset diabetes of the young' (MODY), monogenetisch overervende vormen van diabetes mellitus.

Maturity-onset diabetes of the young (MODY) exhibits an autosomal dominant pattern of inheritance and can be divided in at least five subtypes (MODY 1 to 5), each subtype being caused by mutations in a specific gene. The unambiguous molecular diagnosis of the specific MODY subtype facilitates an early diagnosis of diabetes and can help to reduce the development of diabetic complications. Furthermore, MODY2 patients generally have a milder clinical course and fewer complications than MODY3 patients, who consequently require a more aggressive therapeutic approach.

[From gene to disease; mutation in mitochondrial DNA and maternally inherited diabetes mellitus with deafness (MIDD)]. / Van gen naar ziekte; mutatie in mitochondrieel DNA en maternaal overervende diabetes mellitus met doofheid (MIDD).

MIDD is a maternally inherited disorder with diabetes and impaired hearing due to a reduced perception of high tones. The disorder is caused by an A to G mutation at position 3243 in mitochondrial DNA. Approximately 1.3% of insulin-dependent diabetic patients in the Netherlands has this mutation. The main defect in these patients seems to be a reduced secretion of insulin by the pancreas in response to glucose stimulation.

Molecular and clinical aspects of mitochondrial diabetes mellitus.

This review provides a compact overview on the contribution of mutations in mtDNA to the pathogenesis of diabetes mellitus, with emphasis on the A3243G mutation in the tRNA(Leu, UUR) gene. This mutation associates in most individuals with maternally inherited diabetes and deafness (MIDD) whereas in some other carriers the MELAS syndrome or a progressive kidney failure is seen. Possible pathogenic mechanisms are discussed especially the question why particular mutations in mtDNA associate with distinct clinical entities. Mutations in mtDNA can affect the ATP production, thereby leading to particular clinical phenotypes such as muscle weakness. On the other hand mtDNA mutations may also alter the intracellular concentration of mitochondrial metabolites which can act as signalling molecules, such as Ca or glutamate. This situation may contribute to the development of particular phenotypes that are associated with distinct mtDNA mutations.

Insulin secretion and sensitivity after simultaneous pancreas-kidney transplantation estimated by continuous infusion of glucose with model assessment.

BACKGROUND: Monitoring of insulin secretion and sensitivity after pancreas transplantation remains a practical problem. METHODS: We introduced the simple structural model, continuous infusion of glucose with model assessment (CIGMA), to obtain insulin secretion and insulin sensitivity estimations after 35 successful simultaneous pancreas-kidney transplantations. Eighteen non-diabetic kidney transplant recipients were used as control group. RESULTS: The baseline characteristics were equal between the two groups except for higher fasting insulin levels in the pancreas transplant group. After the 1-hr CIGMA glucose load, the pancreas transplant group reached a mean +/- SD blood glucose of 8.2+/-1.7 mmol/L compared with 7.3+/-1.0 mmol/L in the control group (P = 0.05). Concurrent stimulated insulin and C-peptide levels were 48+/-28 mU/L and 2.3+/-0.9 nmol/L in the pancreas transplant group compared with 36+/-21 mU/L and 2.9+/-1.1 nmol/L in the control group (P = 0.1 and P = 0.03, respectively). Both the CIGMA estimation for secretion as well as the CIGMA estimation for sensitivity were lower in pancreas transplant group (P = 0.003 and P = 0.01, respectively). Mean +/- SE coefficients of variation for the model estimations were 15+/-4% for secretion and 17+/-6% for sensitivity. CONCLUSIONS: We conclude that CIGMA can be used clinically to evaluate carbohydrate metabolism in pancreas-kidney transplant recipients. These patients have a reduction in insulin secretory capacity and evidence of more insulin resistance than non-diabetic kidney transplant recipients.

HLA-DQ polymorphism and degree of heteroplasmy of the A3243G mitochondrial DNA mutation in maternally inherited diabetes and deafness.

AIM: Maternally inherited diabetes and deafness (MIDD) associates with a mutation at position 3243 in mitochondrial DNA. Phenotypic expression of MIDD includes Type 1-like and Type 2-like diabetes. This study examined whether HLA-DQ phenotype and the degree of heteroplasmy in leucocyte and oral mucosa DNA influence clinical expression of the 3242 mutation. METHODS: In a group of 20 unrelated probands with MIDD, eight with Type 1- like diabetes, 12 with Type 2-like diabetes, HLA-DQ type and degree of heteroplasmy for the 3243 mutation were determined. HLA-DQA1/DQB1 phenotypes were categorized as predisposing, neutral or protective for autoimmune-mediated Type 1 diabetes. RESULTS: No differences were observed between Type 1 and Type 2-like MIDD groups with respect to the cumulative frequency of protective and predisposing HLA-DQ types. Predisposing HLA-DQ types are more prevalent in MIDD patients than in the control population (P < 0.05). Degrees of heteroplasmy for the 3243 mutation showed large variations in patients, ranging from 1 to 52% in leucocyte DNA. A strong correlation was seen between heteroplasmy in leucocyte DNA and DNA from oral mucosa cells (r = 0.89, P < 0.001). No correlation was observed between the degree of heteroplasmy and diabetic phenotype, even when group size was extended with diabetic relatives of patients with MIDD. The age of diagnosis of diabetes was not correlated with heteroplasmy, but the degree of heteroplasmy tended to decrease with age. CONCLUSIONS: The phenotype of diabetes in MIDD appears to be independent of HLA-DQ phenotype and degree of heteroplasmy in leucocyte and oral mucosa DNA indicating that other, as yet unknown, factors modulate clinical expression of the 3243 mutation.

Effect of simultaneous pancreas-kidney transplantation on mortality of patients with type-1 diabetes mellitus and end-stage renal failure.

BACKGROUND: Long-term prognosis of patients with type-1 diabetes mellitus and end-stage renal failure appears to be better after kidney transplantation compared with dialysis. Controversy exists about the additional benefit of a simultaneously transplanted pancreatic graft. We studied the effect on mortality of simultaneous pancreas-kidney transplantation compared with kidney transplantation alone from regional differences in transplantation protocols. METHODS: All 415 patients with type-1 diabetes (aged 18-52 years) who started renal-replacement therapy in the Netherlands between 1985 and 1996 were included in the analysis. Patients were allocated to a centre based on their place of residence at onset of renal failure. In the Leiden area, the primary intention to treat was with a simultaneous pancreas-kidney transplantation, whereas in the non-Leiden area, kidney transplantation alone was the predominant type of treatment. All patients were followed up to July, 1997. Analyses, mortality, and graft failure were by Cox proportional-hazard model adjusted for age and sex. FINDINGS: Simultaneous pancreas-kidney transplantation was done in 41 (73%) of 56 transplanted patients in the Leiden area compared with 59 (37%) of 158 transplanted patients in the non-Leiden area (p<0.001). The hazard ratio for mortality after the start of renal-replacement therapy was 0.53 (95% CI, 0.36-0.77, p<0.001) in the Leiden area compared with the non-Leiden area. When just the transplanted patients were analysed the mortality ratio was 0.4 (95% CI 0.20-0.77, p=0.008) and was independent of duration of dialysis and early transplant-related deaths. Equal survival was found for patients on dialysis only. INTERPRETATION: These data support the hypothesis that simultaneous pancreas-kidney transplantation prolongs survival in patients with diabetes and end-stage renal failure.

Effect of danaparoid sodium on proteinuria, von Willebrand factor, and hard exudates in patients with diabetes mellitus type 2.

In diabetic nephropathy, heparan sulfate glycosaminoglycan side chains are reduced in glomerular basement membranes proportionally to the degree of proteinuria. Recently, it was demonstrated that additional therapy with danaparoid sodium, a mixture of sulfated glycosaminoglycans with mainly heparan sulfate, lowered proteinuria in type 1 diabetes patients with diabetic nephropathy. A randomized placebo-controlled parallel study was performed with 750 anti-Xa units of danaparoid sodium once daily in type 2 diabetes patients with severe proteinuria. The aim of the study was to evaluate the possible effects of danaparoid sodium on proteinuria, endothelial dysfunction, and hard exudates in the retina and to determine the safety/tolerability of this drug. Twenty-two patients completed the study, and one patient had to stop prematurely after 6 wk of danaparoid sodium treatment because of urticaria at the injection sites. Apart from a small decrease of hemoglobin and minor skin hematomas at the injection site in five patients in the danaparoid sodium group, no other safety parameters showed any clinically or statistically significant difference between and within groups. The relative change in time of both the urinary albumin and protein excretion rate corrected for creatinine did not differ between both treatment arms (P = 0.2 and 0.49, respectively). No retinal complications or changes of hard exudates occurred. von Willebrand factor was elevated in both groups, but was not influenced by either treatment modality. Contrary to the beneficial effects that occurred in type 1 diabetes patients with diabetic nephropathy, treatment for 8 wk with 750 anti-Xa units of danaparoid sodium gave no reduction of proteinuria, hard exudates, and von Willebrand factor.

The DD genotype of the ACE gene polymorphism is associated with progression of diabetic nephropathy to end stage renal failure in IDDM.

BACKGROUND: The insertion-deletion (I/D) polymorphism of the angiotensin converting enzyme gene is a diallelic polymorphism that constitutes a genetic influence on the progression of renal diseases such as IgA nephropathy. Patients with the DD genotype have an accelerated progression towards end stage renal failure in these diseases. The role of the I/D polymorphism in the pathogenesis of diabetic nephropathy in IDDM is unresolved. PATIENTS AND METHODS: We therefore set out to study the contribution of the I/D polymorphism in 79 patients (age 39.5 +/- 7.6 years (mean +/- SD) with end stage renal failure due to diabetic nephropathy, who were recipients of a combined kidney-pancreas transplantation (n = 60), or who were on the waiting list for such a procedure (n = 19). The control series consisted of 82 patients (age 39.5 +/- 9.6 years) without microalbuminuria after fifteen years of IDDM. RESULTS: The ACE genotype distribution in patients was not in accordance with the Hardy-Weinberg equilibrium due to a significant overrepresentation of the DD genotype (X2 = 8.9, p = 0.01). This resulted in a significant increase of the D-allele frequency in the cases compared to controls (X2 = 4.9, p = 0.03). The presence of one D-allele did not increase the risk of end stage renal failure (odds ratio ID/II = 1.0, 95% CI 0.4-2.2). The presence of the DD genotype increased the risk of end stage renal failure twofold compared to the other genotypes (odds ratio 2.1, 95% CI 1.1-4.0). The risk estimate seemed slightly higher in patients with good metabolic control (odds ratio 2.6, 95% CI 1.0-7.1), than in patients with poor control (odds ratio 1.6, 95% CI 0.59-4.3). CONCLUSION: It is concluded that the risk of end-stage renal failure in patients with IDDM is twofold increased in patients with the DD genotype as compared to patients with other genotypes.

The relative contribution of insulin secretory capacity, insulin action, and incretins to metabolic control after islet transplantation in dogs.

Adequate metabolic control is central to the concept of islet transplantation, but has received limited attention. We studied metabolic control in 8 dogs at 6-9 months after intrasplenic autografting of approximately 25% of the normal mass islets--as compared to 30 controls. A similar posttransplant reduction to approximately 25% of the insulin secretory capacity as assessed by intravenous arginine stimulation during 35 mM glucose clamps, mirrored the reduction of the islet mass. Postprandially, in contrast, the insulin response had increased to 140% in the islet recipients--with a concomitant rise of glycemia to approximately 8.5 mM. Posttransplant, the insulin secretory capacity correlated both with the index of insulin action (which averaged 55% of the normal value) as assessed by euglycemic hyperinsulinemic clamps, and--inverse--with the postprandial glucose excursions. Because insulin action did not correlate with postprandial glucose, the insulin secretory capacity appears to be the primary determinant of the impaired glucose tolerance. Marked postprandial hyperglucagonemia, and a virtually absent pancreatic polypeptide response in the grafted animals, may also have contributed to the impaired glucose tolerance. Posttransplant, infusion of a physiological dose of the gut hormone glucagon-like peptide-1 during 8.5 mM glucose clamps--mimicking the postprandial glycemia--potentiated glucose-stimulated insulin 175%. Thus, after transplantation of a suboptimal islet mass, postprandial glucose excursions are restrained by hyperglycemic potentiation of the entero-insular axis, which may account for the difference in the insulin response to the intravenous and oral challenges. Because, the insulin secretory capacity reflects the islet mass and appears to be the major determinant of glucoregulation, transplantation of a larger islet mass may allow near-normal glycemic control.

Extracellular matrix in human diabetic nephropathy: reduced expression of heparan sulphate in skin basement membrane.

In diabetic nephropathy, expression of glycosaminoglycan side chains of heparan sulphate proteoglycan in the glomerular basement membrane is reduced proportionally to the degree of proteinuria. We performed a cross-sectional study to evaluate whether non-vascular basement membranes also show a decrease in heparan sulphate side chain staining in patients with diabetic nephropathy. We evaluated the skin basement membrane for extracellular matrix components in the following groups: control subjects (n = 16); patients with Type 1 diabetes and normoalbuminuria (n = 17), microalbuminuria (n = 7), and macroalbuminuria (n = 16); patients with Type 1 diabetes and diabetic nephropathy undergoing renal replacement therapy (n = 13); and non-diabetic patients undergoing renal replacement therapy (n = 21). The following antibodies were used for this immunohistochemical study: monoclonal antibodies against the heparan sulphate side chain (JM403) and core protein (JM72) of the glomerular heparan sulphate proteoglycan; polyclonal antibodies against the core protein (B31); polyclonal antibodies against collagen types I, III, and IV, fibronectin, and laminin; and monoclonal antibodies against the noncollagenous domain of alpha1(collagen IV) and alpha3(collagen IV), against transforming growth factor beta(2G7), and against advanced glycosylation end products (4G9). Expression of heparan sulphate side chains was reduced in the skin basement membrane of patients with overt diabetic nephropathy, of those with Type 1 diabetes undergoing renal replacement therapy, and those with non-diabetic renal failure. Increased intensity of staining was found for collagen type I and advanced glycosylation end products in patients with diabetic nephropathy. Changes in the extracellular matrix of the skin basement membrane seem to be similar to those in the glomerular basement membrane. These findings support the suggestion that patients with diabetic nephropathy also have altered heparan sulphate and collagen staining in extrarenal basement membranes. However, patients with non-diabetic renal failure also had reduced expression of heparan sulphate in the skin basement membrane, suggesting that this finding is not specific for diabetic nephropathy.

Low bone mass and high incidence of fractures after successful simultaneous pancreas-kidney transplantation.

BACKGROUND: Simultaneous pancreas-kidney transplantation successfully restores normoglycaemia and corrects uraemia in insulin-dependent diabetes mellitus patients with end-stage renal failure due to diabetic nephropathy. Low bone turnover and cortical osteopenia are often associated with the diabetic state and corticosteroid-induced bone loss, predominantly trabecular, is expected post-transplantation. Little is known, however, about the resultant long-term effects of successful simultaneous pancreas-kidney transplantation on bone mass and consequent fracture rate. METHODS: We studied bone and mineral metabolism, bone densitometry (using dual X-ray absorptiometry), and fracture prevalence in a cross-sectional design in 31 IDDM patients at least 12 months (mean 40+/-23 months) after successful simultaneous pancreas-kidney transplantation. RESULTS: All patients were insulin-independent and mean creatinine clearance was 64 +/- 21 ml/min. Secondary hyperparathyroidism, probably multifactorial, was found in 55% of the patients. Increased bone turnover as suggested by elevated osteocalcin concentrations was present in 45% of the patients. Twenty-three per cent of patients had a significant decrease in bone mass (T score < -2.5 SD) at the predominantly trabecular lumbar spine sites. In contrast, 58% demonstrated a similarly low bone mass at the femoral neck, where cortical bone is prevalent. Forty-five per cent of patients had documented vertebral (mostly asymptomatic) and non-vertebral fractures. CONCLUSION: Our findings suggest that low bone mass is prevalent after successful simultaneous pancreas-kidney transplantation, and that this is associated with a high incidence of fractures, representing a cause for concern with regard to long-term morbidity. Contrary to the predominant trabecular bone loss expected with corticosteroid excess, cortical bone loss was prevalent in our patients, possibly due to pre-existing diabetic state and persistent hyperparathyroidism.

Parental history of hypertension and parental history of diabetes and microvascular complications in insulin-dependent diabetes mellitus: the EURODIAB IDDM Complications Study.

Diabetic nephropathy clusters in families, suggesting an inherited predisposition. Parental history of hypertension and of Type 2 diabetes mellitus have been associated with nephropathy in offspring with Type 1 diabetes in some studies but not in others. The associations of parental history of hypertension and of diabetes with both albuminuria and proliferative retinopathy were studied in a large cross-sectional study of 3250 patients with Type 1 diabetes, from 16 European countries. Albuminuria was associated with hypertension in a parent (p < 0.01 in men, p < 0.05 in women), adjusted for age. Patients with a parental history of hypertension had a higher prevalence of hypertension (p < 0.001 in men, p < 0.01 in women) and a higher prevalence of parental diabetes (p < 0.001 in men, p < 0.001 in women). The association of albuminuria with parental hypertension was independent of parental diabetes in men but not women (OR = 1.28 in men p = 0.04, OR = 1.25 in women p = 0.09) and was not independent of hypertension in the patient him/herself in either sex. Albuminuria was associated with parental diabetes in women only (OR = 1.36, p = 0.04). This association was independent of both parental hypertension and hypertension in the patient herself. Proliferative retinopathy was not associated with parental hypertension or diabetes. The implications of these data are that both candidate genes for hypertension and Type 2 diabetes should be considered in the search for the genetic determinants of diabetic nephropathy.

[A new subtype of diabetes mellitus: maternally inherited diabetes and deafness (MIDD)]. / Een nieuw subtype van diabetes mellitus: via de moeder overgeërfde diabetes en doofheid (MIDD).

Diabetes mellitus comprises many subtypes, the pathogenesis of each of which involves a combination of inherited and environmental factors. Recently a new subtype of diabetes mellitus was recognized in a Dutch pedigree, designated as 'maternally inherited diabetes and deafness' (MIDD). Impaired hearing is an associated phenomenon of the disease. Approximately 1.3% of all diabetic cases in the Netherlands exhibit the MIDD subtype. MIDD shows a strictly maternal heredity. In MIDD there is a guanine-for-adenine substitution at position 3243 in mitochondrial DNA. Mitochondria carrying this mutation exhibit a decreased functionality. In carriers of the MIDD mutation the insulin secretion by the pancreas in response to stimulation by glucose is impaired.

Effect of danaparoid sodium on hard exudates in diabetic retinopathy.

BACKGROUND: In diabetes mellitus, both retinopathy and nephropathy represent specific microvascular disease with increased capillary permeability resulting in hard exudates, foveal oedema, and albuminuria. The decrease of heparan-sulphate content of the glomerular-basement membrane is quantitatively related to the rate of proteinuria in nephropathy associated with insulin-dependent diabetes mellitus (IDDM). Several short-term studies in patients with IDDM and non-IDDM have shown that a reduction of microalbuminuria and macroalbuminuria can be achieved with the supplementation of glycosaminoglycans. After completion of a study on the effect of danaparoid sodium on albumin excretion in patients with IDDM and macroalbuminuria, we hypothesised that treatment with danaparoid sodium also influenced retinal leakage in the patients in that trial. METHODS: In this retrospective study nine patients with nephropathy received 750 anti-Xa units danaparoid sodium once a day for 6 weeks in a placebo-controlled double-blind cross-over study. Fundus photographs, done at baseline and at the end of the study, were semiquantitatively scored for the severity of hard exudates. FINDINGS: At baseline 14 eyes had grade 1 to 5 severity of hard exudates and four eyes were without hard exudates (grade 0). There was no progression in the latter four eyes. In ten eyes an improvement was observed: four patients showed a favourable response to treatment in both eyes and two patients showed improvement in one eye. We found improvement of hard exudates after 6 weeks of treatment with danaparoid sodium. INTERPRETATION: Our uncontrolled observation indicates that the supplementation of danaparoid sodium influences both the permeability of retinal vessels as well as of glomerular vessels. Danaparoid-sodium therapy as a systemic adjuvant is worth considering for treatment strategies for foveal oedema and hard exudates in diabetic maculopathy.