[Two new anticoagulants available in 2010--Dabigatran Etexilate and Rivaroxaban: expected progresses--raised problems]. / Deux nouveaux anticoagulants disponibles en 2010--Dabigatran Etexilate et Rivaroxaban: progrès attendus--problèmes posés.

After having been used for decades, heparins (unfractionated heparin [UFH] or low molecular weight heparins [LMWH]) and vitamin K antagonists (VKA), which are only parenterally active or which are responsible for frequent iatrogenicity respectively, have to face the competition of new anticoagulant drugs targeting either factor Xa or factor IIa (thrombin). Rivaroxaban (Xarelto(®)) and Dabigatran Etexilate (Pradaxa(®)) are the two leading components. They are more convenient to use and do not require routine coagulation monitoring. They are already marketed for venous thromboembolism prevention in major orthopaedic surgery. Although manufacturers claim that no biological monitoring is required, these two compounds may interfere in routine coagulation tests such as PT or aPTT, and in esoteric assays such as anti-Xa activity (the results of which are usually expressed in international anti-Xa units either UFH or LMWH unit) for Rivaroxaban or anti-IIa activity for Dabigatran Etexilate. Noteworthy is the fact that, in the case of these new anticoagulant drugs, results should be expressed in active product units (nanogram per millilitre of Rivaroxaban or Dabigatran). The new anticoagulants are associated with a bleeding risk comparable to that of VKA and heparins.

Thrombomodulin promoter mutations, venous thrombosis, and varicose veins.

We analyzed the distal promoter region of the thrombomodulin (TM) gene (nucleotides -300 to -2052) in subjects from the Paris Thrombosis Study (PATHROS), a French case-control study of venous thrombosis, to identify polymorphisms that might modify TM gene expression. Eight novel mutations were found in the 40 DNA samples initially screened. Two of these mutations (-1748G/C and -1208/-1209 del TT) were frequent. One rare transition (-1166G/A) might have functional consequences owing to its position. These 3 mutations were screened for in the entire study population of 327 patients and 398 controls. None of the 3 was significantly associated with thrombosis. Interestingly, the -1208/-1209 TT deletion was associated with varicose veins in the patients. This mutation was in tight linkage disequilibrium with the +1418 C/T change in the coding sequence, a known polymorphism that predicts an Ala 455 Val substitution in the sixth epidermal growth factor-like TM module, a domain previously implicated in the proliferative functions of TM. This linkage suggests that the Ala 455 Val mutation may promote changes in these functions and thus be involved in varicose vein formation.

Mutations in promoter region of thrombomodulin and venous thromboembolic disease.

The present study was designed to analyze the thrombomodulin proximal promoter region spanning nucleotides -293 to -12 to search for polymorphisms that could modify thrombomodulin gene expression in patients with venous thromboembolic disease. The study population comprised 205 patients and 394 healthy subjects of similar age and sex distribution. No polymorphisms and only 1 point mutation (G-33A) were found. The G-33A mutation was present at the heterozygous state in 2 patients and in 1 control. Being more frequent in the patients (0.97%) than in the controls (0.25%), the G-33A mutation might be a risk factor for venous thrombosis. To investigate the effect of this mutation on the thrombomodulin promoter activity, the proximal promoter region of the gene (bearing or not bearing the G-33A mutation) was inserted into a promotorless expression vector, upstream of the firefly luciferase gene, and transiently transfected into EA.hy926 endothelial cells. Under the conditions of the assay, the G-33A mutation mildly decreased the promoter activity. This study confirms that abnormalities of the thrombomodulin proximal promoter are not frequent in patients with venous thromboembolism.

Structure of the human luteinizing hormone-choriogonadotropin receptor gene: unusual promoter and 5' non-coding regions.

The complete organization of the human luteinizing hormone-choriogonadotropin (LH/CG) receptor (LH/CGR) gene and the structure of 1591 bp of its 5' flanking region have been determined. This gene spans over 70 kbp and contains 11 exons. The first ten exons and part of the last exon encode the extracellular domain of the receptor while the transmembrane and intracellular domains are encoded by the remaining part of the last exon. The gene encodes a 701 amino acids long preprotein, contrary to a previous report of 699 amino acids. Primer extension experiments and polymerase chain reaction (PCR) mapping allowed definition of the transcription initiation site, which is located 1085 bp upstream from the initiation codon. The 5' non-coding region is thus unusually long. The promoter region which is different from the murine LH/CG receptor promoter, contains two putative TATA boxes at positions -34 and -47 and a CAAT box consensus sequence at position -89. A consensus sequence corresponding to a cAMP responsive element is found at position -697. Seven API consensus sequences are also found in the 5' flanking region of the gene. Southern blot experiments demonstrated an informative biallelic polymorphism within the human LH/CG receptor gene locus using BglII endonuclease. The cloning of the human LH/CGR gene and the determination of the organization and structure of its 5' flanking region allow the study of its hormonal, developmental and tissue-specific regulation. Primers and PCR conditions are described for the direct genomic sequencing of all the exons of the gene. This information should facilitate the study of pathological mutations of the receptor.