Estrogen modulates plasminogen promoter activity.

Postmenopausal women treated with estrogen hormone replacement therapy and female patients with hypoplasminogenemia receiving oral contraceptives show increasing plasminogen (PLG) concentrations. The elevated PLG levels are in contrast to the estrogen dependent decline of lipoptrotein(a) [Lp(a)], whose main protein component apolipoprotein(a) [APO(a)] is highly homologous to PLG in protein and gene structure and is also located in its immediate vicinity on chromosome 6q26. The intergenic region between both genes comprises several transcription-regulatory regions with enhancer sequences that increase the basal activity of the PLG core promoter. Using luciferase reporter assays we demonstrate that the minimal PLG promoter is insensitive to estrogen. However, an estrogen response element located 11.5 kb upstream of the PLG transcription start site is able to convey a dramatic estrogen-dependent elevation of PLG-minimal promoter driven reporter gene expression. In contrast, the activating effect of two additional enhancer elements, among them an DNase I hypersensitivity region that has been shown to regulate the APO(a) minimal promoter activity, is abrogated by estrogen. Thus, the identified estrogen-responsive elements provide a gene and tissue specific framework by which PLG expression is regulated and whose activity is orchestrated by yet unknown accessory factors.

Duodenal ulceration in a patient with celiac disease and plasminogen I deficiency: coincidence or cofactors?

Celiac disease (CD) is a gluten-dependent inflammatory disease of the small bowel that affects up to 1% of the worldwide population. Despite severe mucosal abnormalities including total villous atrophy and autoantibody deposition, duodenal ulcer is not a feature of CD. However, a recent study found an elevated rate of peptic ulcer disease in patients with CD. Plasminogen deficiency (PLD) is an autosomal recessive disease that causes pseudomembranous lesions in different organs, but gastrointestinal involvement is rare. Here we report the case of a 6-year-old girl who had a sudden onset of hematemesis caused by duodenal ulcer. On the basis of mucosal atrophy, elevated celiac antibody levels, decreased plasminogen serum activity, and homozygous missense mutation R216H in the plasminogen gene, CD and PLD were diagnosed. This report is, to our knowledge, the first description of the 2 entities, and results of our double-immunofluorescent studies also suggest that both diseases may have a role in the ulceration process. Excessive amounts of fibrin deposition due to PLD caused the distortion of the vessels and was responsible for the unusual celiac immunoglobulin A and tissue transglutaminase 2 in vivo binding pattern. On the basis of this result, patients with CD and unknown cause of gastrointestinal ulcer may require investigation for PLD.

Transcriptional regulation of the human KiSS1 gene.

Kisspeptin, the product of the KiSS1 gene, has emerged as a key component of the mechanism by which the hypothalamus controls puberty and reproductive development. It does so by stimulating the secretion of gonadotropin releasing hormone (GnRH). Little is known about the transcriptional control of the KiSS1 gene. Here we show that a set of proteins postulated to be upstream components of a hypothalamic network involved in controlling female puberty regulates KiSS1 transcriptional activity. Using RACE-PCR we determined that transcription of KiSS1 mRNA is initiated at a single transcription start site (TSS) located 153-156bp upstream of the ATG translation initiation codon. Promoter assays performed using 293 MSR cells showed that the KiSS1 promoter is activated by TTF1 and CUX1-p200, and repressed by EAP1, YY1, and CUX1-p110. EAP1 and CUX-110 were also repressive in GT1-7 cells. All four TFs are recruited in vivo to the KiSS1 promoter and are expressed in kisspeptin neurons. These results suggest that expression of the KiSS1 gene is regulated by trans-activators and repressors involved in the system-wide control of mammalian puberty.

Isoelectric focusing pattern of plasminogen mutants of patients with hypoplasminogenemia: correlation of in-vitro data with computer-predicted isoelectric points (pI).

Plasminogen (plg), the circulating proenzyme of plasmin in blood, is a polymorphic protein and most of these natural variants have been identified using isoelectric focusing (IEF) gel electrophoresis. Here, we show that a rare plg gene polymorphism 504R/W is associated with IEF phenotype A3 on the protein level. One healthy individual with homozygous plg gene polymorphism 504W studied so far exhibited low normal plg antigen and slightly decreased plg activity, suggesting that this polymorphism is associated with (mild) hypoplasminogenemia. In addition, we present the findings of IEF phenotyping of plg mutants of 26 patients with severe hypoplasminogenemia, showing one of the following four IEF patterns: A3-like, A3A-like, B-like and AB-like. In the plasma of most compound heterozygous patients, only one of the two plg mutants was detectable by IEF electrophoresis, probably due to undetectable plasma concentration of the 2nd plg mutant. In almost all cases, pI of plg mutants and variants predicted by computer modeling were in good agreement with the observed IEF band pattern. plg phenotyping by IEF in combination with molecular genetic analysis of the plg gene is a useful approach to characterize plg mutants and variants further.

Inherited plasminogen deficiency presenting as ligneous vaginitis: a case report with molecular correlation and review of the literature.

Type 1 plasminogen deficiency is an inherited and potentially life-threatening systemic disease in which patients develop pseudomembranous lesions of mucosal surfaces exposed to minor trauma. It is most commonly clinically encountered as ligneous conjunctivitis. We report the case of a 39-year-old woman with extensive involvement of the female genital tract. Microscopically, the vagina, cervix, endometrium, ovaries, and parametrial tissues showed innumerable deposits of paucicellular hyaline material with adjacent inflammation. Histochemical, immunofluorescent, and electron microscopic analyses revealed the amorphous material to be fibrin and collagen. In the plasma, functional plasminogen and plasminogen antigen levels were markedly decreased. Sequencing showed the patient to be a compound heterozygote for a missense and nonsense mutation in the plasminogen gene. Histologically, deposits in ligneous vaginitis are easily confused with amyloid or fibrinous debris. Recently, replacement therapy with plasminogen has been shown to significantly improve systemic symptoms, making ligneous mucositis a serious but treatable condition.

Ligneous inflammation involving the female genital tract.

Ligneous inflammation is a rare disease characterized by progressive growth of ligneous plaques on mucosal surfaces. Involvement of the female genital tract is an unusual condition. We present a patient with multifocal ligneous inflammation involving her genital tract, oral mucosa and conjunctiva. Plasminogen functional activity was 18% of normal (reference: 55-145%). Molecular analysis exhibited that her genetic status is homozygous for a combination of three polymorphisms. But no true mutation could be found in all 19 exons of the plasminogen gene. We did not observe any clinical changes, although plasminogen activity has improved in the course of 5 months of oral contraceptive therapy Most gynecologists are unfamiliar with this diagnosis and pathologists with wide experience in gynecology are unaware of this disease. However, the histology of lesions is characteristic and a diagnosis can be made quite easily once it has been considered.

Hypoplasminogenemia with ligneous periodontitis: a failed local therapeutic approach.

BACKGROUND: Hypoplasminogenemia is a rare condition that is associated with ligneous conjunctivitis, a form of chronic conjunctivitis characterized by firm, fibrin-rich, pseudomembranous lesions on the tarsal conjunctivae and oral lesions. Pseudomembranes may develop on the gingivae, and there may be periodontal involvement. METHODS: Several therapeutic approaches have been developed to treat such patients, but they have had limited effect. We used gingivectomies, topical heparin, and corticosteroids to treat periodontal lesions in an 18-year-old girl. RESULTS: This approach had no benefit. CONCLUSION: The question remains about how best to manage patients with hypoplasminogenemia.

Molecular and clinical spectrum of type I plasminogen deficiency: A series of 50 patients.

Severe type I plasminogen (PLG) deficiency has been causally linked to a rare chronic inflammatory disease of the mucous membranes that may be life threatening. Here we report clinical manifestations, PLG plasma levels, and molecular genetic status of the PLG gene of 50 patients. The most common clinical manifestations among these patients were ligneous conjunctivitis (80%) and ligneous gingivitis (34%), followed by less common manifestations such as ligneous vaginitis (8%), and involvement of the respiratory tract (16%), the ears (14%), or the gastrointestinal tract (2%). Four patients showed congenital occlusive hydrocephalus, 2 with Dandy-Walker malformation of cerebellum. Venous thrombosis was not observed. In all patients, plasma PLG levels were markedly reduced. In 38 patients, distinct mutations in the PLG gene were identified. The most common genetic alteration was a K19E mutation found in 34% of patients. Transient in vitro expression of PLG mutants R134K, delK212, R216H, P285T, P285A, T319_N320insN, and R776H in transfected COS-7 cells revealed significantly impaired secretion and increased degradation of PLG. These results demonstrate impaired secretion of mutant PLG proteins as a common molecular pathomechanism in type I PLG deficiency.

Characterization of plasminogen variants in healthy subjects and plasminogen mutants in patients with inherited plasminogen deficiency by isoelectric focusing gel electrophoresis.

Plasmin(ogen) plays an important role in fibrinolysis and wound healing. Severe hypoplasminogenemia has recently been linked to ligneous conjunctivitis. Plasminogen (plg) is known as a polymorphic protein and most of these variants have been identified using isoelectric focusing (IEF) gel electrophoresis. Here, we studied common plg variants from healthy subjects and plg mutants from three patients with hypoplasminogenemia and three subjects with dysplasminogenemia by molecular genetic analysis and IEF. Analysis of 24 healthy subjects showed that subjects with the most common IEF plg phenotype A (n=12) were homozygous for aspartate at position 453 (453D), while both subjects with IEF plg phenotype B were homozygous for asparagine at this position (453N). Subjects with IEF plg phenotype AB (n=10) were compound-heterozygous for 453D/453N. Three patients with severe hypoplasminogenemia and different plg gene mutations exhibited characteristic "abnormal" IEF band patterns when compared with IEF plg phenotypes A and B. In all heterozygous family members the observed IEF plg phenotype was derived from the wild type plg molecule only, probably due to low concentration of the mutant plg molecule in plasma. In contrast, in three unrelated subjects with heterozygous dysplasminogenemia an equal "mixture" of wild type and mutant plg was found by IEF analysis. In conclusion, plg phenotyping by IEF in combination with molecular analysis of the plg gene seems to be a useful method for characterization of plg variants and mutants.

Ligneous (pseudomembranous) inflammation involving the female genital tract associated with type-1 plasminogen deficiency.

Ligneous (pseudomembranous) inflammation of the female genital tract is a rare and unusual condition characterized by extensive subepithelial fibrin deposition and associated inflammation. Ligneous inflammation in extragenital sites, predominantly the conjunctiva, has been linked to plasminogen deficiency. Individuals with plasminogen deficiency are unable to remove fibrin deposited in injured mucosal tissue. Severe systemic ligneous inflammation involving the female genital tract that is linked to hypoplasminogenemia has not previously been described. We present a patient with ligneous inflammation of her genital, middle ear, and oral mucosa that was associated with type-1 homozygous plasminogen deficiency due to a novel missense mutation in the plasminogen gene.

A K19E missense mutation in the plasminogen gene is a common cause of familial hypoplasminogenaemia.

The prevalence of familial plasminogen deficiency in Scotland has recently been calculated at 2.9/1000. However, little is known of the molecular genetic background and the frequency of plasminogen gene mutations in most cases of inherited plasminogen deficiency. Having previously identified 28 unrelated subjects with familial plasminogen deficiency from a cohort of 9611 blood donors, we have now reviewed 19 of these 28 subjects and screened the plasminogen gene in 15 subjects with hypoplasminogenaemia (plus five relatives) and four subjects with dysplasminogenaemia for mutations and polymorphisms. A missense mutation K19E in the plasminogen gene was found in 13 of the 15 propositi with hypoplasminogenaemia, in one of these in a homozygous manner. In two subjects with hypoplasminogenaemia, two new mutations (P353A and R471X) were identified. These three different mutations, if inherited in a homozygous or compound-heterozygous manner, may be associated with the development of ligneous conjunctivitis. In four subjects with dysplasminogenaemia, three heterozygous mutations (C548G, n = 1; A601T, n = 1; G693R, n = 2) were found. None of the propositi with plasminogen deficiency developed venous thrombosis at any time. In conclusion, the K19E mutation in the plasminogen gene is a common cause of hypoplasminogenaemia in Scotland, with an estimated prevalence of around 0.14%.

Ligneous conjunctivitis, hydrocephalus, hydrocele, and pulmonary involvement in a child with homozygous type I plasminogen deficiency.

UNLABELLED: Ligneous conjunctivitis is a rare and unusual form of chronic pseudomembranous conjunctivitis which usually starts in early infancy. Plasminogen deficiency has recently been associated with ligneous conjunctivitis. The disease may be associated with pseudomembranous lesions of other mucous membranes in the mouth, nasopharynx, trachea, and female genital tract and also with congenital hydrocephalus. In this report, a 1-month-old Turkish boy who had pseudomembranous conjunctivitis, occlusive hydrocephalus, and hydrocele is presented. After surgery for ventriculo-peritoneal shunt establishment, he developed inspiratory stridor, respiratory distress, and pulmonary atelectasis. Tracheal pseudomembranes were also demonstrated by bronchoscopy. Plasminogen antigen level and plasminogen activity were very low. Genomic DNA from the patient was screened for mutations in the plasminogen gene and a homozygous L650fsX652 mutation (deletion of 2081C) was detected. Both of his parents were heterozygous for this mutation. He died due to respiratory failure during follow-up. CONCLUSION: Ligneous conjunctivitis related to type I plasminogen deficiency is relatively common in the Turkish population, however, mutations are heterogeneous and a common founder is unlikely.