Long-term treatment with thalidomide for severe recurrent hemorrhage from intestinal angiodysplasia in Glanzmann Thrombasthenia

Gastrointestinal angiodysplasia (GIA) is the most common cause of occult gastrointestinal bleeding (GIB) requiring often hospitalization and transfusions, especially in patients with hemorrhagic disorders. Thalidomide, impairing neo-angiogenesis, has been successfully used in the management of bleeding in patients with GIA and in particular in patients with inherited bleeding disorders. Only one case of short-term treatment with thalidomide in a patient with Glanzmann thrombasthenia (GT) and recurrent GIB due to GIA has been reported so far. We report the case of a woman with GT developing high frequency recurrent GIB due to GIA requiring repeated blood and platelet transfusions, who was treated with thalidomide obtaining a striking and stable reduction of GIB and of the requirement of platelet and blood transfusions for over 5 years. Moreover, we raise the suspicion that the association between GT and GIA may not be fortuitous

Improved in planta expression of the human islet autoantigen glutamic acid decarboxylase (GAD65)

The smaller isoform of the enzyme glutamic acid decarboxylase (GAD65) is a major islet autoantigen in autoimmune type 1 diabetes mellitus (T1DM). Transgenic plants expressing human GAD65 (hGAD65) are a potential means of direct oral administration of the islet autoantigen in order to induce tolerance and prevent clinical onset of disease. We have previously reported the successful generation of transgenic tobacco and carrot that express immunoreactive, full-length hGAD65. In the present study, we tested the hypothesis that the expression levels of recombinant hGAD65 in transgenic plants can be increased by targeting the enzyme to the plant cell cytosol and by mediating expression through the potato virus X (PVX) vector. By substituting the NH2-terminal region of hGAD65 with a homologous region of rat GAD67, a chimeric GAD671-87/GAD6588-585 molecule was expressed in transgenic tobacco plants. Immunolocalization analysis showed that immunoreactive GAD67/65 was found in the plant cell cytosol. By using a radio-immuno assay with human serum from a GAD65 autoantibody-positive T1DM patient, the highest expression level of the recombinant GAD67/65 protein was estimated to be 0.19% of the total soluble protein, compared to only 0.04% of wild-type hGAD65. Transient expression of wild-type, full-length hGAD65 in N. benthamiana mediated by PVX infection was associated with expression levels of immunoreactive protein as high as 2.2% of total soluble protein. This substantial improvement of the expression of hGAD65 in plants paves the way for immunoprevention studies of oral administration of GAD65-containing transgenic plant material in animal models of spontaneous autoimmune diabetes

Transgenic plants expressing human glutamic acid decarboxylase (GAD65), a major autoantigen in insulin-dependent diabetes mellitus

Parenteral and oral administration of autoantigens can induce immune tolerance in autoimmune diseases. Prophylactic therapy based on oral administration of human autoantigens is not, however, feasible when sufficient quantities of candidate autoantigens are not available. Transgenic plants that express high levels of recombinant proteins would allow large quantities of autoantigens to be produced at relatively low costs. In addition, transgenic food would provide a simple and direct method of delivering autoantigens. The production and the characterization of transgenic tobacco and carrot plants expressing human GAD65, a major autoantigen in human insulin-dependent diabetes mellitus (IDDM), is reported. Immunogold labeling and electron microscopy of transgenic tobacco tissue shows the selective targeting of human GAD65 to chloroplast tylacoids and mitochondria. In planta expressed GAD65 has a correct immunoreactivity with IDDM-associated autoantibodies and retains enzymatic activity, a finding that suggests a correct protein folding. In transgenic tobacco and carrot the expression levels of human GAD65 varies between 0.01%and 0.04%of total soluble proteins. Transgenic edible plant organs are nowavailable to study the feasibility of inducing immune tolerance in IDDM animals by oral administration of GAD65

Radioiodine uptake in non-lactating mammary glands: Evidence for a causative role of hyperprolactinemia

Context: Radioiodine uptake is rarely observed in normal non-lactating breast tissue. Investigation of the in vivo regulation of iodide uptake in breast tissue may be useful for the induction of radioiodine uptake in breast cancer tissue for diagnostic and therapeutic purposes. Case reports: We report the cases of two post-menopausal women who underwent radioiodine therapy for papillary thyroid carcinoma and in whom breast uptake of radioiodine on post-therapy whole body scan (WBS) was observed. Methods and results: In both patients, elevated serum prolactin levels ( 123 ng/mL in patient 1 and 48 ng/mL in patient 2) were documented at the time when radioiodine uptake in the breast was observed. The hyperprolactinemia was due to prolonged treatment with the antidopaminergic neuroleptic risperidone in Case 1, and chronic renal failure in Case 2. When prolactin levels were normalized ( by withdrawal of risperidone in Case 1 and with cabergoline in Case 2), breast tissue uptake was no longer evident on WBS. Conclusion: These cases provide the first documented correlation between serum levels of endogenous prolactin and radioiodine uptake by involuted breast tissue in humans

Dietary metabolites and the gut microbiota: an alternative approach to control inflammatory and autoimmune diseases

It is now convincingly clear that diet is one of the most influential lifestyle factors contributing to the rise of inflammatory diseases and autoimmunity in both developed and developing countries. In addition, the modern 'Western diet' has changed in recent years with increased caloric intake, and changes in the relative amounts of dietary components, including lower fibre and higher levels of fat and poor quality of carbohydrates. Diet shapes large-bowel microbial ecology, and this may be highly relevant to human diseases, as changes in the gut microbiota composition are associated with many inflammatory diseases. Recent studies have demonstrated a remarkable role for diet, the gut microbiota and their metabolites—the short-chain fatty acids (SCFAs)—in the pathogenesis of several inflammatory diseases, such as asthma, arthritis, inflammatory bowel disease, colon cancer and wound-healing. This review summarizes how diet, microbiota and gut microbial metabolites (particularly SCFAs) can modulate the progression of inflammatory diseases and autoimmunity, and reveal the molecular mechanisms (metabolite-sensing G protein-coupled receptor (GPCRs) and inhibition of histone deacetylases (HDACs)). Therefore, considerable benefit could be achieved simply through the use of diet, probiotics and metabolites for the prevention and treatment of inflammatory diseases and autoimmunity

Gamma-glutamyltransferase, arterial remodeling and prehypertension in a healthy population at low cardiometabolic risk

International audiencePlasma gamma-glutamyltransferase (GGT) was suggested to reflect the level of systemic oxidative stress. Oxidative stress induces changes in arterial structure and function and contributes to the development of hypertension. Therefore, GGT may be associated with arterial remodeling and blood pressure (BP) increment, even in absence of disease. To test this hypothesis, we evaluated, in 825 healthy subjects at low cardiometabolic risk, the associations of plasma GGT with carotid artery intima-media thickness (IMT), luminal diameter and prehypertension; in 154 subjects was evaluated also the association with aortic stiffness (cfPWV). Associations were controlled for insulin sensitivity, C-reactive protein, and life-style habits. In the main population, BP was remeasured after 3 years. Carotid diameter and cfPWV, but not IMT, were directly and independently related to plasma GGT. Subjects with prehypertension (N = 330) had higher GGT as compared with subjects with normal BP (22 [14] vs 17 [11] IU/L; adjusted P = 0.001), and within prehypertensive subjects, those who developed hypertension during 3 years had higher GGT than those without incident hypertension (27 [16] vs 21 [14] IU/L; adjusted P < 0.05). Within subjects with arterial stiffness measurement, those with prehypertension (N = 79) had higher both GGT and arterial stiffness (25 [14] vs 16 [20] IU/L and 9.11 ± 1.24 vs 7.90 ± 0.94 m/s; adjusted P < 0.01 and <0.05). In the view of previous evidence linking plasma GGT concentration to the level of systemic oxidative stress, our findings suggest a role of oxidative stress in subclinical arterial damage and in prehypertension, even in healthy subjects free of cardiometabolic risk. Arterial organ damage may represent the link between GGT and hypertension