tenascin-X Research Articles

7030 Molecular Analysis Of Congenital Adrenal Hyperplasia-X Syndrome And Development Of A Pilot Panel For Analyzing Structural Variations With Long-Read Sequencing

Abstract Disclosure: J. Kim: None. S. Park: None. J. Yoon: None. D. Kim: None. S. Hwang: None. G. Kim: None. J. Kim: None. J. Choi: None. H. Yoo: None. Purpose: Genomic recombination events between the CYP21A2 and CYP21A1P genes are frequent due to their high sequence homology. Deletions in both the CYP21A2 and TNXB genes result in a chimeric TNXA/TNXB gene, leading to congenital adrenal hyperplasia (CAH)-X syndrome, characterized by a hypermobile form of Ehlers-Danlos syndrome. The aim of study was to determine the frequency of CAH-X syndrome and to develop a pilot panel for structural variation analysis using long-read sequencing technology. Methods: Among the 165 unrelated families with confirmed genetic mutations in the CYP21A2 gene, 44 probands had large deletions in one or both alleles. Long-range PCR was performed in 12 patients out of 44 probands using a forward primer for the 5’-UTR of the CYP21A2 and CYP21A1P and a reverse primer specific for exon 32 of TNXB. The amplified PCR products were then subjected to Sanger sequencing. We constructed a custom panel of 140 kb containing the RCCX modules arranged as STK19-C4A-CYP21A1P-TNXA-STK19B-C4B-CYP21A2-TNXB. In 4 patients with deletions in both the CYP21A2 and TNXB genes, long-read sequencing was performed using the custom panel on the PacBio Sequel II platform. Results: Out of 12 probands, eight harbored TNXA/TNXB chimeras. One patient was homozygous for CAH-X CH1 with a 120 bp deletion in exon 35 and had a Beighton score of 6 for joint hypermobility and multiple diverticula in the ascending colon. Two patients were heterozygous for CAH-X CH1, while three were heterozygous for the CAH-X CH2 with an intact exon 35 and the c.P4058W in exon 40. Two patients carried heterozygous mutations p.S4175N in exon 43, which is an unclassified type. Using long-read sequencing with a custom panel, missense mutations and TNXA/TNXB chimeras were detected in four patients previously identified by conventional direct sequencing and MLPA. Conclusions: This study identified 8 patients with CAH-X syndrome carrying four different TNXA/TNXB chimeras by long-range PCR. Long-read sequencing emerged as a comprehensive and efficient method for the molecular analysis of CAH, especially for the identification of structural variations. Biallelic deletion of TNXB was associated with severe clinical manifestations. Therefore, screening for CAH-X is essential for clinical management and prevention of the long-term consequences of CAH-X syndrome. Presentation: 6/1/2024

9266 Molecular Analysis Of Congenital Adrenal Hyperplasia-X Syndrome And Development Of A Pilot Panel For Analyzing Structural Variations With Long-Read Sequencing

Abstract Disclosure: J. Kim: None. S. Park: None. J. Yoon: None. D. Kim: None. S. Hwang: None. G. Kim: None. J. Kim: None. J. Choi: None. H. Yoo: None. Purpose: Genomic recombination events between the CYP21A2 and CYP21A1P genes are frequent due to their high sequence homology. Deletions in both the CYP21A2 and TNXB genes result in a chimeric TNXA/TNXB gene, leading to congenital adrenal hyperplasia (CAH)-X syndrome, characterized by a hypermobile form of Ehlers-Danlos syndrome. The aim of study was to determine the frequency of CAH-X syndrome and to develop a pilot panel for structural variation analysis using long-read sequencing technology. Methods: Among the 165 unrelated families with confirmed genetic mutations in the CYP21A2 gene, 44 probands had large deletions in one or both alleles. Long-range PCR was performed in 12 patients out of 44 probands using a forward primer for the 5’-UTR of the CYP21A2 and CYP21A1P and a reverse primer specific for exon 32 of TNXB. The amplified PCR products were then subjected to Sanger sequencing. We constructed a custom panel of 140 kb containing the RCCX modules arranged as STK19-C4A-CYP21A1P-TNXA-STK19B-C4B-CYP21A2-TNXB. In 4 patients with deletions in both the CYP21A2 and TNXB genes, long-read sequencing was performed using the custom panel on the PacBio Sequel II platform. Results: Out of 12 probands, eight harbored TNXA/TNXB chimeras. One patient was homozygous for CAH-X CH1 with a 120 bp deletion in exon 35 and had a Beighton score of 6 for joint hypermobility and multiple diverticula in the ascending colon. Two patients were heterozygous for CAH-X CH1, while three were heterozygous for the CAH-X CH2 with an intact exon 35 and the c.P4058W in exon 40. Two patients carried heterozygous mutations p.S4175N in exon 43, which is an unclassified type. Using long-read sequencing with a custom panel, missense mutations and TNXA/TNXB chimeras were detected in four patients previously identified by conventional direct sequencing and MLPA. Conclusions: This study identified 8 patients with CAH-X syndrome carrying four different TNXA/TNXB chimeras by long-range PCR. Long-read sequencing emerged as a comprehensive and efficient method for the molecular analysis of CAH, especially for the identification of structural variations. Biallelic deletion of TNXB was associated with severe clinical manifestations. Therefore, screening for CAH-X is essential for clinical management and prevention of the long-term consequences of CAH-X syndrome. Presentation: 6/1/2024

Role of CD34 in calcification of human aortic valve interstitial cells from patients with aortic valve stenosis

Various osteogenic factors are involved in ectopic human aortic valve calcification; however, the key cell species involved in calcification remains unclear. In a previous study, we reported that mesenchymal stem (CD73, 90, 105) and endothelial (VEGFR2) cell markers are positive in almost all human aortic valve interstitial cells (HAVICs) obtained from a patient with calcified aortic valve stenosis (CAVS). Further, CD34-negative HAVICs are highly sensitive to calcification stimulations. Here, we aimed to pathophysiologically clarify the role of CD34 in HAVICs obtained from individual patients with severe CAVS. A DNA microarray between CD34-positive and CD34-negative HAVICs, separated by fluorescence-activated cell sorting, indicated that tenascin X (TNX) mRNA expression significantly decreased in CD34-negative cells. Furthermore, the inflammatory cytokines, tumor necrosis factor (TNF)-α and interleukin (IL)-1β significantly downregulated CD34 expression in HAVICs. TGF-β, a key cytokine of endothelial-mesenchymal transition, did not affect HAVIC calcification. CD34 overexpression strongly inhibited TNF-α- and IL-1β-induced calcification and maintained TNX mRNA expression. These results suggest one possibility that CD34 is an inhibitory regulator of valve calcification. Furthermore, TNF-α- and IL-1β-induced CD34 downregulation in HAVICs contributes to HAVIC calcification by downregulating TNX protein expression.

Correlation of Prognostic Factors of Invasive Lobular Carcinoma and Invasive Ductal Carcinoma

One of the biggest risks facing women in the twenty-first century is breast cancer. Invasion lobular carcinoma and invasion ductal carcinoma are the two main categories into which it is divided. Omics data is used to identify predictive biomarker signatures for clinical applications to detect breast cancer. Predictive performance has significantly improved because of recent advancements in machine learning techniques. Here, we are using an approach built on symbolic regression called the QLattice on a variety of clinical omics data sets. Through the identification of potential regulatory interactions between biomolecules, this method creates efficient, high-performing models that can forecast and explain the results of a specific omics experiment. The models have the potential to make it easier to find new biomarker signatures due to their clarity and obvious functional shape, which make them simple and easy to comprehend. A comprehensive experimental investigation was conducted to assess the machine learning model's efficacy in terms of the Area under the Curve (AUC) for breast cancer. The outcomes, which were contrasted with other approaches, demonstrate the suggested framework's efficacy and capacity to beat the alternative algorithms in terms of AUC, which is 0.66. Here, we profiled breast tumors in detail, including ductal carcinoma, mixed carcinoma, and invasive lobular carcinoma, by using the Gaussian method and TNXB gene.

Loss of Smooth Muscle Tenascin-X Inhibits Vascular Remodeling Through Increased TGF-β Signaling.

Vascular smooth muscle cells (VSMCs) are highly plastic. Vessel injury induces a phenotypic transformation from differentiated to dedifferentiated VSMCs, which involves reduced expression of contractile proteins and increased production of extracellular matrix and inflammatory cytokines. This transition plays an important role in several cardiovascular diseases such as atherosclerosis, hypertension, and aortic aneurysm. TGF-β (transforming growth factor-β) is critical for VSMC differentiation and to counterbalance the effect of dedifferentiating factors. However, the mechanisms controlling TGF-β activity and VSMC phenotypic regulation under in vivo conditions are poorly understood. The extracellular matrix protein TN-X (tenascin-X) has recently been shown to bind TGF-β and to prevent it from activating its receptor. We studied the role of TN-X in VSMCs in various murine disease models using tamoxifen-inducible SMC-specific knockout and adeno-associated virus-mediated knockdown. In hypertensive and high-fat diet-fed mice, after carotid artery ligation as well as in human aneurysmal aortae, expression of Tnxb, the gene encoding TN-X, was increased in VSMCs. Mice with smooth muscle cell-specific loss of TN-X (SMC-Tnxb-KO) showed increased TGF-β signaling in VSMCs, as well as upregulated expression of VSMC differentiation marker genes during vascular remodeling compared with controls. SMC-specific TN-X deficiency decreased neointima formation after carotid artery ligation and reduced vessel wall thickening during Ang II (angiotensin II)-induced hypertension. SMC-Tnxb-KO mice lacking ApoE showed reduced atherosclerosis and Ang II-induced aneurysm formation under high-fat diet. Adeno-associated virus-mediated SMC-specific expression of short hairpin RNA against Tnxb showed similar beneficial effects. Treatment with an anti-TGF-β antibody or additional SMC-specific loss of the TGF-β receptor reverted the effects of SMC-specific TN-X deficiency. In summary, TN-X critically regulates VSMC plasticity during vascular injury by inhibiting TGF-β signaling. Our data indicate that inhibition of vascular smooth muscle TN-X may represent a strategy to prevent and treat pathological vascular remodeling.

Tenascin-X is increased with decreased expression of miR-378a-5p and miR-486-5p in mice fed a methionine-choline-deficient diet that induces hepatic fibrosis.

We previously reported that tenascin-X (Tnxb) aggravates hepatic fibrosis in mice fed a high-fat and high-cholesterol diet with high levels of phosphorus and calcium (HFCD). In this study, we investigated Tnxb expression in livers with fibrosis caused by administration of a methionine-chorine-deficient (MCD) diet in mice. Whole transcriptome analysis showed that Tnxb was one of the genes with increased expression in livers of MCD diet-fed mice compared with that in livers of normal diet (ND)-fed mice. In microarray and subsequent microRNA (miRNA) network analyses, miR-378a-5p and miR-486-5p were identified in livers of MCD diet-fed mice as downregulated miRNAs, which have their predicted target sites in the 3' untranslated region of Tnxb mRNA and might suppress the translation of Tnxb mRNA. RT-qPCR analyses of livers of MCD diet-fed mice compared with livers of ND-fed mice verified the upregulation of Tnxb and fibrosis-triggering genes and conversely the downregulation of miR-378a-5p and miR-486-5p. Overexpression of miR-378a-5p and miR-486-5p resulted in decreased level not only of the FLAG-tagged fibrinogen-like domain of Tnxb protein (FLAG-mTNX-FG) but also of endogenous Tnxb protein in murine cultured cells. These results indicate that expression of Tnxb is regulated by miR-378a-5p and miR-486-5p in hepatic fibrosis following MCD diet feeding.

Hypersensitivity of myelinated A-fibers via toll-like receptor 5 promotes mechanical allodynia in tenascin-X-deficient mice associated with Ehlers–Danlos syndrome

Deficiency of an extracellular matrix glycoprotein tenascin-X (TNX) leads to a human heritable disorder Ehlers–Danlos syndrome, and TNX-deficient patients complain of chronic joint pain, myalgia, paresthesia, and axonal polyneuropathy. We previously reported that TNX-deficient (Tnxb−/−) mice exhibit mechanical allodynia and hypersensitivity to myelinated A-fibers. Here, we investigated the pain response of Tnxb−/− mice using pharmacological silencing of A-fibers with co-injection of N-(2,6-Dimethylphenylcarbamoylmethyl) triethylammonium bromide (QX-314), a membrane-impermeable lidocaine analog, plus flagellin, a toll-like receptor 5 (TLR5) ligand. Intraplantar co-injection of QX-314 and flagellin significantly increased the paw withdrawal threshold to transcutaneous sine wave stimuli at frequencies of 250 Hz (Aδ fiber responses) and 2000 Hz (Aβ fiber responses), but not 5 Hz (C fiber responses) in wild-type mice. The QX-314 plus flagellin-induced silencing of Aδ- and Aβ-fibers was also observed in Tnxb−/− mice. Co-injection of QX-314 and flagellin significantly inhibited the mechanical allodynia and neuronal activation of the spinal dorsal horn in Tnxb−/− mice. Interestingly, QX-314 alone inhibited the mechanical allodynia in Tnxb−/− mice, and it increased the paw withdrawal threshold to stimuli at frequencies of 250 Hz and 2000 Hz in Tnxb−/− mice, but not in wild-type mice. The inhibition of mechanical allodynia induced by QX-314 alone was blocked by intraplantar injection of a TLR5 antagonist TH1020 in Tnxb−/− mice. These results suggest that mechanical allodynia due to TNX deficiency is caused by the hypersensitivity of Aδ- and Aβ-fibers, and it is induced by constitutive activation of TLR5.

A MinION-based Long-Read Sequencing Application With One-Step PCR for the Genetic Diagnosis of 21-Hydroxylase Deficiency.

Recently developed long-read sequencing (LRS) technology has been considered an option for CYP21A2 analysis. However, the clinical use of LRS for CYP21A2 analysis is limited. This study's objective is to develop an efficient and low-cost LRS system for CYP21A2 screening. A DNA fragment library was prepared in a single polymerase chain reaction (PCR) that covers the entire CYP21A2 gene and all known junctions caused by TNXB gene structural rearrangements, yielding a single 8-kb product of CYP21A2 or CYP21A1P/CYP21A2 chimera. After barcoding, the PCR products were sequenced on a MinION-based platform with Flongle Flow Cell R9.4.1 and R10.4.1. The reference genotypes of 55 patients with 21-hydroxylase deficiency (21OHD) were established using the conventional method with multiplex ligation-dependent probe amplification (MLPA) and nested PCR. LRS using Flongle Flow Cell R9.4.1 yielded consistent results. Additionally, the recently updated LRS "duplex" analysis with Flongle flow cell R10.4.1 was tested to reveal an advantage of accurately sequencing a variant located on the homopolymer region. By introducing a barcode system, the cost was reduced to be comparable to that of conventional analysis. A novel single-nucleotide variation was discovered at the acceptor site of intron 7, c.940-1G > C. We also identified a subtype of the classical chimeric junction CH2, "CH2a," in the region from the latter part of intron 5 to exon 6. We successfully established a novel low-cost and highly accurate LRS system for 21OHD genetic analysis. Our study provides insight into the feasibility of LRS for diagnosing 21OHD and other genetic diseases caused by structural rearrangements.

Molecular basis and genetic testing strategies for diagnosing 21-hydroxylase deficiency, including CAH-X syndrome.

Congenital adrenal hyperplasia (CAH) is a group of autosomally recessive disorders that result from impaired synthesis of glucocorticoid and mineralocorticoid. Most cases (~95%) are caused by mutations in the CYP21A2 gene, which encodes steroid 21-hydroxylase. CAH patients manifest a wide phenotypic spectrum according to their degree of residual enzyme activity. CYP21A2 and its pseudogene (CYP21A1P) are located 30 kb apart in the 6q21.3 region and share approximately 98% of their sequences in the coding region. Both genes are aligned in tandem with the C4, SKT19, and TNX genes, forming 2 segments of the RCCX modules that are arranged as STK19-C4A-CYP21A1P-TNXA-STK19B-C4B-CYP21A2-TNXB. The high sequence homology between the active gene and pseudogene leads to frequent microconversions and large rearrangements through intergenic recombination. The TNXB gene encodes an extracellular matrix glycoprotein, tenascin-X (TNX), and defects in TNXB cause Ehlers-Danlos syndrome. Deletions affecting both CYP21A2 and TNXB result in a contiguous gene deletion syndrome known as CAH-X syndrome. Because of the high homology between CYP21A2 and CYP21A1P, genetic testing for CAH should include an evaluation of copy number variations, as well as Sanger sequencing. Although it poses challenges for genetic testing, a large number of mutations and their associated phenotypes have been identified, which has helped to establish genotype-phenotype correlations. The genotype is helpful for guiding early treatment, predicting the clinical phenotype and prognosis, and providing genetic counseling. In particular, it can help ensure proper management of the potential complications of CAH-X syndrome, such as musculoskeletal and cardiac defects. This review focuses on the molecular pathophysiology and genetic diagnosis of 21-hydroxylase deficiency and highlights genetic testing strategies for CAH-X syndrome.

P-51 Epigenome-wide DNA methylation profiling identifies the TNXB gene as a potential epigenetic candidate for colorectal cancer prevention

P-51 Epigenome-wide DNA methylation profiling identifies the TNXB gene as a potential epigenetic candidate for colorectal cancer prevention

The same heterozygous Col4A4 mutation triggered different renal pathological changes in Chinese family members.

Background: Mutations in the collagen components of the glomerular basement membrane (GBM) often lead to hereditary glomerulonephritis. Previous studies have identified that autosomal dominant mutations of Col4A3, Col4A4 or Col4A5 are associated with thin basement membrane nephropathy (TBMN), Alport syndrome and other hereditary kidney diseases. However, the genetic mutations underlying other glomerulonephritis types have not been elucidated. Methods: In this study, we investigated a Chinese family with hereditary nephritis using the methods of genetic sequencing and renal biopsy. Genomic DNA was extracted from peripheral blood of the proband and her sister, and subsequently was performed genetic sequencing. They were found to have the similar mutation sites. Other family members were then validated using Sanger sequencing. The proband and her sister underwent renal puncture biopsies, and experienced pathologists performed PAS, Masson, immunofluorescence, and immunoelectron microscopic staining of the kidney tissue sections. Results: Through genetic sequencing analysis, we detected a novel heterozygous frameshift mutation c.1826delC in the COL4A4 (NM_000092.4) gene coding region, and 1 hybrid missense variation c.86G>A (p. R29Q) was also detected in the TNXB (NM_019105.6) gene coding region in several members of this Chinese family. Interestingly, we found that the same mutations caused different clinical features and distinct pathological changes in individual family members, which confirmed that pathological and genetic testing are crucial for the diagnosis and treatment of hereditary kidney diseases. Conclusion: In this study, we found a novel heterozygous mutation in Col4A4 and co-mutations of the TNXB gene in this Chinese family. Our study indicated that the same Col4A4 mutated variants produced different pathological and clinical changes in different family members. This discovery may provide novel insights into the study of hereditary kidney disease. In addition, new genetic biology techniques and renal biopsy of individual family members are essential.

Tenascin-X as a causal gene for classical-like Ehlers-Danlos syndrome.

Tenascin-X (TNX) is an extracellular matrix glycoprotein for which a deficiency results in a recessive form of classical-like Ehlers-Danlos syndrome (clEDS), a heritable connective tissue disorder with hyperextensible skin without atrophic scarring, joint hypermobility, and easy bruising. Notably, patients with clEDS also suffer from not only chronic joint pain and chronic myalgia but also neurological abnormalities such as peripheral paresthesia and axonal polyneuropathy with high frequency. By using TNX-deficient (Tnxb -/-) mice, well-known as a model animal of clEDS, we recently showed that Tnxb -/- mice exhibit hypersensitivity to chemical stimuli and the development of mechanical allodynia due to the hypersensitization of myelinated A-fibers and activation of the spinal dorsal horn. Pain also occurs in other types of EDS. First, we review the underlying molecular mechanisms of pain in EDS, especially that in clEDS. In addition, the roles of TNX as a tumor suppressor protein in cancer progression have been reported. Recent in silico large-scale database analyses have shown that TNX is downregulated in various tumor tissues and that high expression of TNX in tumor cells has a good prognosis. We describe what is so far known about TNX as a tumor suppressor protein. Furthermore, some patients with clEDS show delayed wound healing. Tnxb -/- mice also exhibit impairment of epithelial wound healing in corneas. TNX is also involved in liver fibrosis. We address the molecular mechanism for the induction of COL1A1 by the expression of both a peptide derived from the fibrinogen-related domain of TNX and integrin α11.

A Genome-Wide Association Study Identified Novel Genetic Susceptibility Loci for Oral Cancer in Taiwan.

Taiwan has the highest incidence rate of oral cancer in the world. Although oral cancer is mostly an environmentally induced cancer, genetic factors also play an important role in its etiology. Genome-wide association studies (GWAS) have identified nine susceptibility regions for oral cancers in populations of European descent. In this study, we performed the first GWAS of oral cancer in Taiwan with 1529 cases and 44,572 controls. We confirmed two previously reported loci on the 6p21.33 (HLA-B) and 6p21.32 (HLA-DQ gene cluster) loci, highlighting the importance of the human leukocyte antigen and, hence, the immunologic mechanisms in oral carcinogenesis. The TERT-CLMPT1L locus on 5p15.33, the 4q23 ADH1B locus, and the LAMC3 locus on 9q34.12 were also consistent in the Taiwanese. We found two new independent loci on 6p21.32, rs401775 in SKIV2L gene and rs9267798 in TNXB gene. We also found two suggestive novel Taiwanese-specific loci near the TPRS1 gene on 8q23.3 and in the TMED3 gene on 15q25.1. This study identified both common and unique oral cancer susceptibility loci in the Taiwanese as compared to populations of European descent and shed significant light on the etiology of oral cancer in Taiwan.

Pseudogene TNXA Variants May Interfere with the Genetic Testing of CAH-X.

CAH-X is a hypermobility-type Ehlers-Danlos syndrome connective tissue dysplasia affecting approximately 15% of patients with 21-hydroxylase deficiency (21-OHD) congenital adrenal hyperplasia (CAH) due to contiguous deletion of CYP21A2 and TNXB genes. The two most common genetic causes of CAH-X are CYP21A1P-TNXA/TNXB chimeras with pseudogene TNXA substitution for TNXB exons 35-44 (CAH-X CH-1) and TNXB exons 40-44 (CAH-X CH-2). A total of 45 subjects (40 families) from a cohort of 278 subjects (135 families of 21-OHD and 11 families of other conditions) were found to have excessive TNXB exon 40 copy number as measured by digital PCR. Here, we report that 42 subjects (37 families) had at least one copy of a TNXA variant allele carrying a TNXB exon 40 sequence, whose overall allele frequency was 10.3% (48/467). Most of the TNXA variant alleles were in cis with either a normal (22/48) or an In2G (12/48) CYP21A2 allele. There is potential interference with CAH-X molecular genetic testing based on copy number assessment, such as with digital PCR and multiplex ligation-dependent probe amplification, since this TNXA variant allele might mask a real copy number loss in TNXB exon 40. This interference most likely happens amongst genotypes of CAH-X CH-2 with an in trans normal or In2G CYP21A2 allele.

РЕДКИЕ ТИПЫ СИНДРОМА ЭЛЕРСА–ДАНЛО В ПРАКТИКЕ ПЕДИАТРА

Clinical observations of patients with arthrochalasia and classical-like types of Ehlers-Danlos syndrome (EDS) caused by mutations in the COL1A2 and TNXB genes, respectively, are presented in the article. These genes are involved in the organization of the correct structure and function of collagen. The presence of common links of pathogenesis, apparently, determines the formation of common clinical signs identified in patients (hypermobility syndrome, increased skin extensibility, impaired posture, deformity of the lower extremities, flat feet, mitral valve prolapse) and similar complaints (increased fatigue during exercise, pain in the legs). The peculiarity of the clinical picture in a female patient with arthrochalasia type of EDS were repeated dislocations/subluxations of large and small joints; and in a female patient with a classical-like type of EDS were repeated nosebleeds and the occurrence of paraorbital hematoma. In both observed cases it was possible to determine the type of disease only after a molecular genetic study and a joint analysis of phenotypic and genetic data. Establishing the type of EDS is important for determining the tactics of further medical observation of the patient and medical genetic counseling.

Salt-wasting congenital adrenal hyperplasia phenotype as a result of the TNXA/TNXB chimera 1 (CAH-X CH-1) and the pathogenic IVS2-13A/C > G in CYP21A2 gene

BackgroundGenetic diversity of mutations in the CYP21A2 gene is the main cause of the monogenic congenital adrenal hyperplasia (CAH) disorder. On chromosome 6p21.3, the CYP21A2 gene is partially overlapped by the TNXB gene, the two residing in tandem with their highly homologous corresponding pseudogenes (CYP21A1P and TNXA), which leads to recurrent homologous recombination.Methods and resultsIn the present study, the genetic status of an ethnic Greek-Cypriot family, with a female neonate that was originally classified as male and manifested the salt-wasting (SW) form, is presented. Genetic defects in the CYP21A2 and TNXB genes were investigated by Sanger sequencing multiplex ligation-dependent probe amplification (MLPA) and a real-time PCR assay. The neonate carried in compound heterozygosity the TNXA/TNXB chimeric gene complex (termed CAH-X CH-1) that results in a contiguous CYP21A2 and TNXB deletion and in her second allele the pathogenic IVS2-13A/C > G (c.655A/C > G) in CYP21A2.ConclusionsThe classic SW-CAH due to 21-hydroxylase (21-OH) deficiency may result from various complex etiological mechanisms and, as such, can involve the formation of monoallelic TNXA/TNXB chimeras found in trans with other CYP21A2 pathogenic variants. This is a rare case of CAH due to 21-hydroxylase deficiency, which elucidates the role of the complex RCCX CNV structure in the development of the disease. Identification of the correct CAH genotypes for a given phenotype is of considerable value in assisting clinicians in prenatal diagnosis, appropriate treatment, and genetic counseling.

COL1A1 expression induced by overexpression of both a 15‑amino acid peptide from the fibrinogen domain of tenascin‑X and integrin α11 in LX‑2 cells.

Extracellular matrix tenascin‑X (TNX) is the largest member of the tenascin family. Our previous study demonstrated that TNX was involved in hepatic dysfunction, including fibrosis, in mice that were administered a high‑fat and high‑cholesterol diet with high levels of phosphorus and calcium. The present study investigated whether overexpression of both the fibrinogen domain of TNX (TNX‑FG) and integrin α11, one of the TNX cell surface receptors, induces invitro fibrosis in LX‑2 human hepatic stellate cells. Overexpression of both a 15‑amino acid peptide (hTNX‑FGFFFF) derived from the TNX‑FG domain and integrin α11 induced the expression of typeI collagen α1 chain (COL1A1). Treatment with verteporfin [YAP (Yes‑associated protein) inhibitor] attenuated the elevated COL1A1 expression elicited by overexpression of both hTNX‑FGFFFF and integrin α11. In addition, small interfering RNA‑mediated knockdown of YAP1 resulted in a decrease in COL1A1 expression induced by overexpression of both hTNX‑FGFFFF and integrin α11. These results indicated that overexpression of both hTNX‑FGFFFF and integrin α11 induced COL1A1 expression via the YAP signaling pathway.

Prevalence of CAH-X Syndrome in Italian Patients with Congenital Adrenal Hyperplasia (CAH) Due to 21-Hydroxylase Deficiency.

21-hydroxylase deficiency (21OHD), the most common form of congenital adrenal hyperplasia (CAH), is associated with pathogenic variants in CYP21A2 gene. The clinical form of the disease ranges from classic or severe to non-classic (NC) or mild late onset. The CYP21A2 gene is located on the long arm of chromosome 6, within the RCCX region, one of the most complex loci in the human genome. The 3′untranslated sequence of CYP21A2 exon 10 overlap the last exon of TNXB gene (these genes lie on the opposite strands of DNA and have the opposite transcriptional direction) that encodes an extracellular matrix glycoprotein tenascin-X (TNX). A recombination event between TNXB and its pseudogene TNXA causes a 30 kb deletion producing a chimeric TNXA/TNXB gene (CAH-X chimera) where both CYP21A2 and TNXB genes are impaired. This genetic condition characterizes a subset of patients with 21OHD who display the hypermobility phenotype of Ehlers–Danlos syndrome (hEDS) (CAH-X Syndrome). The aim of this study was to assess the prevalence of CAH-X syndrome in an Italian cohort of patients with 21OHD. At this purpose, 196 probands were recruited. Multiplex ligation-dependent probe amplification (MLPA) and Sanger sequencing were used to identify the CAH-X genotype. Twenty-one individuals showed the heterozygous continuous deletion involving the CYP21A2 and part of the TNXB gene. EDS-related clinical manifestations were identified in most patients carrying the CAH-X chimera. A CAH-X prevalence of 10.7% was estimated in our population.

W142 Gene chimeras involving CYP21A2 and TNXB genes in Spanish patients with congenital adrenal hyperplasia (CAH)

W142 Gene chimeras involving CYP21A2 and TNXB genes in Spanish patients with congenital adrenal hyperplasia (CAH)

Tenascin-X Mediates Flow-Induced Suppression of EndMT and Atherosclerosis.

Endothelial-to-mesenchymal transition (EndMT) has been identified as a critical driver of vascular inflammation and atherosclerosis, and TGF-β (transforming growth factor β) is a key mediator of EndMT. Both EndMT and atherosclerosis are promoted by disturbed flow, whereas unidirectional laminar flow limits EndMT and is atheroprotective. How EndMT and endothelial TGF-β signaling are regulated by different flow patterns is, however, still poorly understood. Flow chamber experiments in vitro and endothelium-specific knockout mice were used to study the role of tenascin-X in the regulation of EndMT and atherosclerosis as well as the underlying mechanisms. In human endothelial cells as well as in human and mouse aortae, unidirectional laminar flow but not disturbed flow strongly increased endothelial expression of the extracellular matrix protein TN-X (tenascin-X) in a KLF4 (Krüppel-like factor 4) dependent manner. Mice with endothelium-specific loss of TN-X (EC-Tnxb-KO) showed increased endothelial TGF-β signaling as well as increased endothelial expression of EndMT and inflammatory marker genes. When EC-Tnxb-KO mice were subjected to partial carotid artery ligation, we observed increased vascular remodeling. EC-Tnxb-KO mice crossed to low-density lipoprotein receptor-deficient mice showed advanced atherosclerotic lesions after being fed a high-fat diet. Treatment of EC-Tnxb-KO mice with an anti-TGF-beta antibody or additional endothelial loss of TGF-beta receptors 1 and 2 normalized endothelial TGF-beta signaling and prevented EndMT. In in vitro studies, we found that TN-X through its fibrinogen-like domain directly interacts with TGF-β and thereby interferes with its binding to the TGF-β receptor. In summary, we show that TN-X is a central mediator of flow-induced inhibition of EndMT, endothelial inflammation and atherogenesis, which functions by binding to and by blocking the activity of TGF-β. Our data identify a novel mechanism of flow-dependent regulation of vascular TGF-β, which holds promise for generating new strategies to prevent vascular inflammation and atherosclerosis.