Transjugular intrahepatic portosystemic shunt treatment of variceal bleeding in an unselected patient population.

OBJECTIVE: To evaluate transjugular intrahepatic portosystemic shunt (TIPS) in variceal bleeding in a clinical setting. MATERIALS AND METHODS: Retrospective review of 131 patients (116 with liver cirrhosis) treated with TIPS with covered stent grafts in a single centre from 2002 to 2016. RESULTS: Survival at 1 and 2 years was 70% and 57% in patents with, and 100% at 2 years in patients without liver cirrhosis, respectively. A high Child-Pugh score and severe hepatic encephalopathy (HE) within 12 months post-TIPS were related to increased mortality. Re-bleeding occurred in 8% within 12 months and was related to TIPS dysfunction and a post-TIPS portosystemic gradient (PSG) of ≥5 mmHg. The main cause of TIPS dysfunction was that the stent did not fully reach the inferior vena cava. There was no correlation between the PSG and the occurrence of HE. CONCLUSIONS: TIPS was safe and prevented re-bleeding in patients with variceal bleeding, with or without liver cirrhosis, regardless of Child-Pugh class and of how soon after bleeding onset, the TIPS procedure was performed. A post-TIPS PSG of ≥5 mmHg was associated with an increased risk for re-bleeding and there was no correlation between the post-TIPS PSG and the occurrence of HE.

Eosinophil granulocytes are activated during the remission phase of ulcerative colitis.

AIM: The aim of this study was to establish a method of investigating intestinal eosinophil and neutrophil granulocytes by flow cytometry, and to compare the distribution and activity of these cells in different stages of ulcerative colitis (UC). METHODS: Biopsy samples were taken from six locations of the entire colon and from the terminal ileum in 10 patients with active total UC, 10 patients with inactive total UC, eight patients with active distal UC, and 11 control subjects. Cell suspensions from biopsies and from peripheral blood were incubated with fluorophore conjugated monoclonal antibodies. The use of scatter plot-gating and specific antibodies was established in a flow cytometry assay. RESULTS: Eosinophils were more numerous and more active in patients with active UC than in controls. Interestingly, during inactive UC, the number of activated eosinophils was even larger. Eosinophil activity was high in the rectum of patients with distal colitis but was also slightly elevated in the proximal colon. Neutrophils were increased in number and activity during active but not inactive UC. In patients with distal colitis, activated neutrophils were only found in the sigmoid colon and rectum. CONCLUSION: With this method, we confirm that neutrophils participate in the inflammatory process during active UC, and that they express a resting phenotype during remission. The finding of activated eosinophils in inflamed intestine strengthens the view of these cells as proinflammatory and tissue damaging. Nevertheless, our new finding of high eosinophil activation during inactive UC suggests that eosinophils play a role in repair of injured epithelium.

No evidence for autoimmunity as a major cause of the empty sella syndrome.

OBJECTIVE: The cause of empty sella syndrome (ESS) remains largely unknown. We measured eleven organ-specific autoantibodies in serum in order to evaluate possible autoimmune components in ESS. PATIENTS: Thirty patients with ESS and 50 healthy blood donors participated in the study. MEASUREMENTS: Detection of pituitary autoantibodies was performed by immunoblotting with human pituitary cytosol as antigen. Thyroid peroxidase (TPO) and TSH receptor (TRAK) autoantibodies were analysed by radioimmunoassay. The remaining eight autoantibodies were detected by in vitro transcription and translation of the autoantigens and immunoprecipitation. RESULTS: The majority of the ESS patients (18/30) exhibited no immunoreactivity at all. None of the remaining 12 ESS patients reacted against more than one autoantigen. No immunoreactivity was found more frequently among ESS patients than healthy blood donors. Pituitary autoantibodies were not correlated to the ESS patients' pituitary function or sellar size, although the results indicated a tendency of increased autoimmunity in patients with hypopituitarism and normal sella size respectively. CONCLUSION: Detection of autoantibodies is a valuable tool in the diagnostic work-up of autoimmune diseases. By analysing a large number of organ-specific autoantibodies we found no evidence of ESS being associated with any specific autoimmune disease. The pathogenesis of ESS is believed to be heterogeneous and our findings suggest autoimmune components to be of minor importance. In some selective cases, ESS in combination with hypopituitarism may be the result of an autoimmune disease in the pituitary gland but this needs further investigation.

Autoantibodies to alpha-fodrin in primary Sjögren's syndrome and SLE detected by an in vitro transcription and translation assay.

OBJECTIVE: To investigate the prevalence of alpha-fodrin autoantibodies in primary Sjögren's syndrome (SS) and systemic lupus erythematosus (SLE) with and without secondary SS, using an in vitro transcription and translation assay (ITT). METHODS: cDNA encoding JS-1, the amino-terminal portion of alpha-fodrin, was used for ITT. Immunoprecipitation was performed with sera from 56 primary SS patients and 67 SLE patients, 14 with and 53 without secondary SS. Correlations to RF, ANA, anti-dsDNA, anti-SS-A and anti-SS-B antibodies, hypergammaglobulinemia, labial salivary gland biopsy grade, extraglandular manifestations and a modified SLE disease activity index (mSLEDAI) were made. RESULTS: Autoantibodies against alpha-fodrin were detected in 16/56 (29%) of primary SS patients and in 25/53 (47%) of sera from SLE patients without secondary SS. In SLE patients with secondary SS the prevalence was 3/14 (21%). None of the blood donors showed alpha-fodrin reactivity. Correlations were found to RF, ANA, anti-dsDNA antibodies and a positive mSLEDAI score. CONCLUSION: The frequency of alpha-fodrin autoantibodies detected by this method is similar in sera from primary SS patients and SLE patients with or without secondary SS. The presence of alpha-fodrin autoantibodies seems to reflect non-organ-specific autoimmunity in primary SS and SLE and to be of limited discriminating value.

The transcription factors SOX9 and SOX10 are vitiligo autoantigens in autoimmune polyendocrine syndrome type I.

Vitiligo is common in the hereditary disorder autoimmune polyendocrine syndrome type I (APS I). Patients with APS I are known to have high titer autoantibodies directed against various tissue-specific antigens. Using sera from APS I patients for immunoscreening of a cDNA library from human scalp, we identified the transcription factors SOX9 and SOX10 as novel autoantigens related to this syndrome. Immunoreactivity against SOX9 was found in 14 (15%) and against SOX10 in 20 (22%) of the 91 APS I sera studied. All patients reacting with SOX9 displayed reactivity against SOX10, suggesting shared epitopes. Among the 19 patients with vitiligo, 12 (63%) were positive for SOX10 (p < 0.0001). Furthermore, three of 93 sera from patients with vitiligo unrelated to APS I showed strong reactivity against SOX10, which may indicate a more general role of SOX10 as an autoantigen in vitiligo.

Autoimmune polyendocrine syndrome type 1 (APS I) in Norway.

OBJECTIVE: The aim of the present study was to investigate Norwegian patients with autoimmune polyendocrine syndrome type I (APS I), with respect to occurrence and clinical presentation, reactivity towards different autoantigenes and mutations in the autoimmune regulator (AIRE) gene. PATIENTS: Twenty Norwegian patients from 15 families with APS I (11 males, nine females; mean age 26 years, range 4--54) were included by contacting all major hospitals in Norway. METHODS: Clinical data was collected from both patients and their physicians by the use of questionnaires and patient records. Autoantibodies were analysed using radioimmunoassays based on antigen synthesized by in vitro transcription and translation. AIRE mutations were determined by DNA sequence analysis. RESULTS: The prevalence of APS I in Norway was estimated to be about 1 : 80,000 individuals. We found about the same distribution of disease characteristics as has been reported in Finnish patients. The diagnosis was delayed in many individuals. In two thirds of the cases, the patients were admitted in Hospital with acute adrenal insufficiency or hypocalcaemic crisis. Forty percent of these patients already had one of the main disease manifestations. Four different mutations in the AIRE gene were found in the Norwegian cohort. A 13-bp deletion in exon 8 (1085--1097(del)) was the most frequent mutation, present in 22/40 (55%) of the alleles. Eighty-five percent of the patients had either autoantibodies against 21 hydroxylase or aromatic L-amino acid decarboxylase. Five of eight women (age > 13 years) had ovarian failure, and all of these had antibodies against side-chain cleavage enzyme (P = 0.0002). CONCLUSION: Norwegian patients with APS I clinically resemble patients from Finland and other European countries. The diagnosis APS I must be considered in children and adolescents with chronic mucocutaneous candidiasis, autoimmune adrenocortical failure or hypoparathyroidism in order to avoid fatal complications. Analysis of autoantibodies and mutational analysis of the AIRE gene are valuable diagnostic tools, especially in the early stages of the disease.

Pteridin-dependent hydroxylases as autoantigens in autoimmune polyendocrine syndrome type I.

Autoimmune polyendocrine syndrome type I (APS I) is characterized by autoantibodies, often directed towards tissue-specific enzymes in the affected organs. We have earlier reported the identification of tryptophan hydroxylase (TPH) and tyrosine hydroxylase (TH) as autoantigens in APS I associated with intestinal dysfunction and alopecia, respectively. These two enzymes, together with phenylalanine hydroxylase (PAH), constitute the group of biopterin-dependent hydroxylases, which all are involved in the biosynthesis of neurotransmitters. A clone encoding PAH was used for in vitro transcription/translation, followed by immunoprecipitation with sera from 94 APS I patients and 70 healthy controls. Of the APS I patients, 25% had PAH antibodies, and no reactivity was detected in the controls. No association with the main clinical components of APS I was found with PAH antibodies. Altogether, 59 sera from the 94 APS I patients reacted with at least one of TPH, TH, or PAH, whereas 35 showed no reactivity. Nineteen of the sera contained antibodies towards all enzymes, 12 to TPH only and 12 to TH only. No sera showed antibodies that reacted to only PAH. An immunocompetition assay demonstrated that the reactivity against PAH represents a cross-reactivity with TPH, whereas antibodies against TPH and TH are directed towards epitopes unique for the two enzymes.

Inhibition of aromatic L-amino acid decarboxylase activity by human autoantibodies.

A full-length rat cDNA clone encoding aromatic L-amino acid decarboxylase (AADC) (E.C. 4.1.1.28) was used for in vitro transcription and translation. The enzyme had catalytic activity (0. 2 pmol serotonin/microl lysate per min), and was stimulated 2.5-fold by the addition of excess pyridoxal phosphate. On size exclusion chromatography, AADC eluted as a single activity peak with an apparent mol. wt of 93 kD. This activity peak was immunoprecipitated by sera from patients with autoimmune polyendocrine syndrome type I (APS I) containing autoantibodies against AADC. Serum and purified IgG from these patients inhibited the enzyme activity (non-competitively) by 10-80%, while sera from APS I patients without autoantibodies and controls did not. This finding confirms and extends previous observations that APS I patients have inhibitory antibodies against key enzymes involved in neurotransmitter biosynthesis.

Identification of tyrosine hydroxylase as an autoantigen in autoimmune polyendocrine syndrome type I.

Patients with the autosomal recessively inherited autoimmune polyendocrine syndrome type I (APS I) have autoantibodies directed against several endocrine and nonendocrine organs. In this study a new autoantigen related to this syndrome, tyrosine hydroxylase, was identified in sera from patients with alopecia areata through immunoscreening of a scalp cDNA library. Immunoreactivity against in vitro expressed tyrosine hydroxylase was found in 41 (44%) of the 94 APS I patients studied and this reactivity correlated with the presence of alopecia areata (P = 0.02). These findings further stress the importance of enzymes involved in neurotransmitter biosynthesis as important immune targets in APS I.

Autoantibodies against aromatic L-amino acid decarboxylase identifies a subgroup of patients with Addison's disease.

Autoantibodies against aromatic L-amino acid decarboxylase (AADC) are present in about 50 percent of sera from patients with autoimmune polyendocrine syndrome type I (APS I) but absent in sera from patients with different organ-specific autoimmune diseases, such as insulin-dependent diabetes mellitus, Hashimoto's thyroiditis, and Graves' disease. AADC is expressed in the pancreatic beta-cells, the liver, and the nervous system; and the presence of AADC antibodies has been shown to correlate to hepatitis and vitiligo in APS I patients. Among 101 investigated patients with autoimmune Addison's disease, 15 had high titers of AADC antibodies. According to the clinical characteristics of these patients, only 3 had APS I. The remaining 12 had either isolated Addison's disease or associated diabetes mellitus, hypothyroidism, vitiligo, alopecia, gonadal failure, and pernicious anemia. Autoantibodies against 21-hydroxylase were present in 9 of 12, whereas autoantibodies against side-chain cleavage enzyme and 17alpha-hydroxylase were present in 3 of 12. Two patients had only autoantibodies against AADC. DNA was available from 3 of these 12 patients. One of the patients, a woman with Addison's disease, autoimmune thyroiditis, and premature menopause was heterozygous for a point mutation (G1021A, Val301Met) in the first plant homeodomain zinc finger domain of the autoimmune regulator (AIRE) gene. The presence of AADC autoantibodies identifies patients with APS I and a subgroup of Addison patients who may have a milder atypical form of APS I or represent a distinct entity. Measurement of autoantibodies against AADC should be included in the evaluation of Addison's disease.

Autoimmune adrenal insufficiency: recognition and management.

The main cause of Addison's disease is an autoimmune organ-specific destruction of the cells in the adrenal cortex by an autoreactive process of activated immune cells directed against the steroid-synthesising enzyme 21-hydroxylase. The diagnosis of Addison's disease is suspected in a patient presenting with symptoms of fatigue, bodyweight loss, anorexia, salt craving, and signs of low blood pressure and hyperpigmentation of the skin. Laboratory findings include electrolyte disturbances, and typically an elevated serum potassium level and sometimes a low serum sodium level is found together with low plasma levels of basal and corticotropin-stimulated hydrocortisone (cortisol). An aetiological diagnosis can rapidly be made using commercially available assays demonstrating the presence of autoantibodies directed against 21-hydroxylase. Determination of 21-hydroxylase autoantibodies also permits early diagnosis before a complete adrenocortical destruction has occurred. Thus, a window of opportunity for an early immunomodulatory intervention therapy may exist. Patients presenting with an acute adrenocortical crisis should be treated with 100mg of hydrocortisone and saline intravenously without awaiting laboratory results. Maintenance therapy includes substitution of glucocorticoid and mineralocorticoid steroids, using divided and lower total dosages of glucocorticoids than previously used.

Antibodies against hair follicles are associated with alopecia totalis in autoimmune polyendocrine syndrome type I.

In the autosomal recessively inherited autoimmune polyendocrine syndrome type I (APS I) patients have autoantibodies directed against several endocrine and nonendocrine organs. Alopecia areata is present in about one-third of the patients and usually in the more severe forms, alopecia universalis or totalis. Sera from 39 patients with APS I, diluted 1:150, were used in indirect immunofluorescence staining of cryo-sections from normal human scalp. Two hair follicle staining patterns were observed. A cytoplasmic staining of the differentiating matrix, cuticle, and cortex keratinocytes in the anagen hair follicle was seen in five (13%) APS I sera. All these five patients had alopecia totalis, representing 63% of the eight patients with alopecia totalis (p < 0.0001). Furthermore, four (10%) of the APS I sera stained the nuclei of the melanocytes in the hair follicle. Two of these patients had vitiligo. None of 20 healthy control sera stained the keratinocyte cells or the melanocyte nuclei. These data show that many patients with APS I have high-titer autoantibodies directed against the anagen matrix, cuticle, and cortex keratinocytes and a melanocyte nuclear antigen, and also that the hair follicle keratinocyte staining is associated with alopecia, especially alopecia totalis. This study emphasizes the role of the differentiating anagen keratinocytes as an important structure in the autoimmune etiology of alopecia, both in APS I and at least in a subgroup of patients with alopecia areata unrelated to APS I.

Tryptophan hydroxylase autoantibodies and intestinal disease in autoimmune polyendocrine syndrome type 1.

Tryptophan hydroxylase antibodies, associated with gastrointestinal disease in autoimmune polyendocrine syndrome type 1, are specific for this disease and not present in patients with other bowel disorders or healthy controls.

Identification of tryptophan hydroxylase as an intestinal autoantigen.

BACKGROUND: Autoimmune polyendocrine syndrome type 1 (APS1) is an autosomal recessive disorder with both endocrine and non-endocrine features. Periodic gastrointestinal dysfunction occurs in 25-30% of APS1 patients. We aimed to identify an intestinal autoantigen. METHODS: A human duodenal cDNA library was immunoscreened with serum samples from APS1 patients. A positive clone was identified and used for in-vitro transcription and translation, followed by immunoprecipitation with serum samples from 80 APS1 patients from Norway, Finland, and Sweden. Sections of normal and APS1-affected small intestine were immunostained with serum from APS1 patients and specific antibodies. An enzyme-inhibition assay was used to characterise the autoantibodies. FINDINGS: We isolated a cDNA clone coding for tryptophan hydroxylase. 48% (38/80) of APS1 patients had antibodies to tryptophan hydroxylase, whereas no reactivity to this antigen was detected in patients with other autoimmune diseases (n=372) or healthy blood donors (n=70). 89% (17/19) of APS1 patients with gastrointestinal dysfunction were positive for antibodies to tryptophan hydroxylase, compared with 34% (21/61) of patients with no gastrointestinal dysfunction (p<0.0001). Serum from antibody-positive APS1 patients specifically immunostained tryptophan-hydroxylase-containing enterochromaffin cells in normal duodenal mucosa. No serotonin-containing cells were seen in duodenal biopsy samples from APS1 patients. Serum from antibody-positive APS1 patients almost completely inhibited activity of tryptophan hydroxylase. INTERPRETATION: Tryptophan hydroxylase is an endogenous intestinal autoantigen in APS1, and there is an association between antibodies to the antigen and gastrointestinal dysfunction. Analysis of antibodies to tryptophan hydroxylase may be a valuable diagnostic tool to predict and monitor gastrointestinal dysfunction in APS1.

A family with hereditary extra-adrenal paragangliomas without evidence for mutations in the von Hippel-Lindau disease or ret genes.

OBJECTIVES: To characterize a family with hereditary paraganglioma, and to search for germline mutations in the von Hippel-Lindau disease (VHL) tumour suppressor gene and the ret proto-oncogene. DESIGN: Patient records and histopathological reports were reviewed. Available tumour samples were reinvestigated using immunohistochemical techniques. The VHL gene was investigated by single strand conformational polymorphism analysis of PCR products amplified from exons 1, 2 and 3 and the 3' untranslated region. The ret gene was analysed by amplifying and sequencing exons 10, 11 and 16. PATIENTS: A family with paragangliomas in three consecutive generations was investigated. RESULTS: The affected individuals were found to have multiple extra-adrenal paragangliomas. All three affected individuals had retroperitoneal tumours, and two also had paraganglioma in the neck. No mutations of the VHL or ret genes were detected. CONCLUSIONS: The described family may represent a novel dominantly inherited neuroendocrine tumour syndrome.

Cytochrome P450IA2 and aromatic L-amino acid decarboxylase are hepatic autoantigens in autoimmune polyendocrine syndrome type I.

Autoimmune chronic active hepatitis (AI-CAH) is a feared component of autoimmune polyendocrine syndrome type I (APS I). In this study, immunoreactivity was assessed in sera from eight APS I patients, of whom three had AI-CAH, in an attempt to identify hepatic autoantigens. We performed indirect immunofluorescence staining of human and rat liver sections, Western blots on subcellular fractions of human and rat liver, immunoprecipitations of labelled aromatic L-amino acid decarboxylase (AADC) and cytochrome P450IA2 (CYP IA2) expressed by an in vitro transcription and translation system and studies of enzymatic activity. Autoantibodies against AADC were present in sera from all eight APS I patients, while immunoreactivity against CYP IA2 was only found in sera from the three APS I patients with AI-CAH. Enzymatic activity of CYP IA2 was inhibited by sera from APS I patients with AI-CAH but not by control sera. Our results show that CYP IA2 and AADC constitute hepatic autoantigens in patients with APS I and that immunoreactivity against CYP IA2 is associated with the presence of AI-CAH.

Autoantibodies against aromatic L-amino acid decarboxylase in autoimmune polyendocrine syndrome type I.

Patients with autoimmune polyendocrine syndrome type I (APS I) have autoantibodies against the enzyme aromatic L-amino acid decarboxylase (AADC) of pancreatic beta-cells. The aim of the present study was to investigate the presence of anti-AADC antibodies in a large cohort of patients with APS I, and in patients with isolated insulin-dependent diabetes mellitus (IDDM). We found autoantibodies against AADC in 35 of 69 patients (51%) with APS I but in none of 138 patients with isolated IDDM or 91 healthy controls. Among the patients with APS I, anti-AADC antibodies were more often found in those with hepatitis (11/12, 92%), than in those without hepatitis (24/57, 42%) (P = 0.003). Similarly, of 15 patients with vitiligo, 12 (80%) had anti-AADC antibodies, compared with 23/54 (43%) without vitiligo (P = 0.021). Of the 9 APS I patients with IDDM, 5 had antibodies against both AADC and glutamate decarboxylase, 2 against AADC only, and 2 against glutamate decarboxylase only. Interestingly, AADC is present in relatively large amounts in the liver, where its function is unknown. Thus, an autoimmune reactivity against AADC may be involved in the pathogenesis of autoimmune chronic active hepatitis and vitiligo in APS I patients, whereas the role of AADC in the development of IDDM in these patients remains to be determined.

Adrenal autoantibodies and organ-specific autoimmunity in patients with Addison's disease.

OBJECTIVE: Autoimmune destruction of the adrenal gland is the major cause of Idiopathic Addison's disease, but the significance of 21-hydroxylase autoantibodies and their correlation with the presence of other autoantibodies have not so far been investigated in a larger population of patients with Addison's disease. We have now characterized a cohort of patients with idiopathic Addison's disease (n = 97) regarding the specificity of autoantibodies against the adrenal cortex and, as Addison's disease can be either an isolated condition or part of a polyendocrine disorder, we investigated the presence of organ-specific polyendocrine autoimmunity in this patient population. DESIGN: Cross-sectional study. MEASUREMENTS: Autoantibodies were analysed with indirect immunofluorescence (IF) on tissue preparations, ELISA and in Western blots using bacterially expressed proteins. RESULTS: Eighty-four per cent (81/97) of the patient sera recognized the steroid-producing cells of the adrenal cortex in indirect IF. The antigen was identified as 21-hydroxylase by 72% (70/97) of the patient sera in Western blots. Seven sera that were negative on adrenocortical IF identified 21-hydroxylase on Western blot, while eight IF-positive sera were 21-hydroxylase-negative. Five sera weakly recognized 17 alpha-hydroxylase in Western blots, but all of these were also positive for 21-hydroxylase. In 13 cases (12 women), the sera also reacted with testicular Leydig cells, and nine of these identified the side-chain cleavage (SCC) enzyme. Other clinically evident organ-specific autoimmune disorders were present in 40% of the 97 patients and abnormal titres of organ-specific antibodies were found in 60% of the patients. CONCLUSIONS: In idiopathic Addison's disease, auto-antibodies against 21-hydroxylase are found in a majority of cases and this represents an important diagnostic tool. The enzyme 17 alpha-hydroxylase does not seem to constitute a major autoantigen in Addison's disease. In a subgroup of patients with autoantibodies to gonads, antibodies to SCC are produced, often in parallel with antibodies to 21-hydroxylase. In yet another subgroup the specificity of autoantibodies giving positive immunofluorescence is still unknown. Three patients revealed a polyendocrine syndrome which clinically resembles autoimmune polyendocrine syndrome (APS) type I, but serologically corresponds to APS type II. Polyendocrine disorders are often associated with Addison's disease, and screening, including quantification of autoantibodies, may help to identify those at risk of developing associated autoimmune disorders.

Aromatic-L-amino-acid decarboxylase, a pyridoxal phosphate-dependent enzyme, is a beta-cell autoantigen.

Different autoantigens are thought to be involved in the pathogenesis of insulin-dependent diabetes mellitus, and they may account for the variation in the clinical presentation of the disease. Sera from patients with autoimmune polyendocrine syndrome type I contain autoantibodies against the beta-cell proteins glutamate decarboxylase and an unrelated 51-kDa antigen. By screening of an expression library derived from rat insulinoma cells, we have identified the 51-kDa protein as aromatic-L-amino-acid decarboxylase (EC 4.1.1.28). In addition to the previously published full-length cDNA, forms coding for a truncated and an alternatively spliced version were identified. Aromatic L-amino acid decarboxylase catalyzes the decarboxylation of L-5-hydroxytryptophan to serotonin and that of L-3,4-dihydroxyphenylalanine to dopamine. Interestingly, pyridoxal phosphate is the cofactor of both aromatic L-amino acid decarboxylase and glutamate decarboxylase. The biological significance of the neurotransmitters produced by the two enzymes in the beta cells remains largely unknown.