Radosław B. Maksym

CD4+ CD25+ FOXP3+ regulatory T cells in peripheral blood and peritoneal fluid of patients with endometriosis

STUDY QUESTION Is endometriosis associated with changes in CD4⁺ CD25⁺ FOXP3⁺ regulatory T cells (Treg cells)? SUMMARY ANSWER Endometriosis is associated with disturbed compartmentalization of CD25(high) FOXP3⁺ Treg cells. WHAT IS KNOWN ALREADY Endometriosis is associated with an abrogated immune response and displays some features of an autoimmune disorder. Treg cells play a part in the development of autoimmune reactions; however, their role in pathogenesis of endometriosis is still poorly recognized. STUDY DESIGN, SIZE AND DURATION Case-control study comparing 17 women with laparoscopically and histopathologically confirmed ovarian endometriosis with 15 control women without visible endometriosis foci, pelvic inflammation or related pathology who were subjected to laparoscopic surgery between 2010 and 2011. PARTICIPANTS/MATERIALS, SETTING AND METHODS Peripheral blood and peritoneal fluid were collected during laparoscopy and T cell subpopulations were analysed by flow cytometry using specific monoclonal antibodies recognizing CD4⁺, CD25⁺ and FOXP3⁺ markers. MAIN RESULTS The percentage of CD25(high) FOXP3⁺ Treg cells was significantly decreased in the peripheral blood of women with ovarian endometriosis compared with control women. On the other hand, the proportion of these cells was significantly increased in the peritoneal fluid of women with endometriosis. LIMITATIONS, REASONS FOR CAUTION The present study is limited to patients with ovarian endometrioma and further investigations are needed, including patients with lower grade of endometriosis. WIDER IMPLICATIONS OF THE FINDINGS The present results suggest that Treg cells may play a part in immunopathogenesis of endometriosis being responsible for abrogated local cellular immune responses and facilitation and development of autoimmune reactions. Treg cells may be thus a potential target in the treatment of endometriosis. STUDY FUNDING/COMPETING INTEREST(S) This study was supported by 1M15/N/2011 and NK1W grants from the I Faculty of Medicine, Warsaw Medical University. None of the authors has any competing interests to declare.

Upregulation of the WNT pathway in tuberous sclerosis-associated subependymal giant cell astrocytomas

Tuberous sclerosis (TS), autosomal dominant disorder manifested by the formation of usually benign tumors in the brain, heart, kidneys and skin, results from an inactivating mutation in one of two tumor suppressor genes TSC1 or TSC2. Protein products of these genes, hamartin and tuberin, respectively, have been shown to participate in the mTOR pathway controlling translation of approx. 10-15% of all proteins. In the current paper, we aimed at verifying whether hamartin and tuberin may also be implicated in the control of gene transcription. Very recently it has been hypothesized that the pathway triggered by WNT, one of embryonic growth factors involved in cell differentiation and migration, could be disturbed in TS. In order to test this hypothesis we evaluated samples of four subependymal giant cell astrocytomas (SEGAs), brain tumors developing in the progress of TS. We found that beta-catenin, transcription factor and mediator of WNT pathway activity is indeed present and active in SEGAs. mRNA transcripts for c-Myc and N-Myc, proteins whose transcription is regulated by beta-catenin, were upregulated in two of four SEGAs, while cyclin D1 mRNA was significantly higher in three SEGAs. At the same time, c-Myc and N-Myc proteins were detected in the same two samples. Thus, we show for the first time that aberrant WNT signaling may contribute to the pathogenesis of TS-associated SEGAs.

Human Papillomavirus Type 8 E2 Protein Unravels JunB/Fra-1 as an Activator of the β4-Integrin Gene in Human Keratinocytes

ABSTRACT The papillomavirus life cycle parallels keratinocyte differentiation in stratifying epithelia. We have previously shown that the human papillomavirus type 8 (HPV8) E2 protein downregulates β4-integrin expression in normal human keratinocytes, which may trigger subsequent differentiation steps. Here, we demonstrate that the DNA binding domain of HPV8 E2 is sufficient to displace a cellular factor from the β4-integrin promoter. We identified the E2-displaceable factor as activator protein 1 (AP-1), a heteromeric transcription factor with differentiation-specific expression in the epithelium. β4-Integrin-positive epithelial cells displayed strong AP-1 binding activity. Both AP-1 binding activity and β4-integrin expression were coregulated during keratinocyte differentiation suggesting the involvement of AP-1 in β4-integrin expression. In normal human keratinocytes the AP-1 complex was composed of JunB and Fra-1 subunits. Chromatin immunoprecipitation assays confirmed that JunB/Fra-1 proteins interact in vivo with the β4-integrin promoter and that JunB/Fra-1 promoter occupancy is reduced during keratinocyte differentiation as well as in HPV8 E2 positive keratinocytes. Ectopic expression of the tethered JunB/Fra-1 heterodimer in normal human keratinocytes activated the β4-integrin promoter, while coexpression of HPV8 E2 reverted the JunB/Fra-1 effect. In summary, we identified a novel mechanism of human β4-integrin regulation that is specifically targeted by the HPV8 E2 protein mimicking transcriptional conditions of differentiation. This may explain the early steps of how HPV8 commits its host cells to the differentiation process required for the viral life cycle.

Late-onset lattice corneal dystrophy without typical lattice lines caused by a novel mutation in the TGFBI gene.

Purpose: The aim of this study was to report the clinical, histopathological, and molecular findings in a patient with late-onset lattice corneal dystrophy (LCD) without typical lattice lines and a novel mutation in the TGFBI gene. Methods: Corneal lesions were visualized by slit-lamp examination and by in vivo confocal microscopy. Histopathological examination was performed on the patients corneal specimen obtained during a deep anterior lamellar keratoplasty. By using genomic DNA as a template, all coding regions of the TGFBI gene were amplified and directly sequenced. The presence of the mutation was verified using restriction endonuclease digestion. Eight different computational methods and multiple sequence alignments were used to predict the pathogenicity of the novel genetic variant. Results: The corneal phenotype was characterized by the presence within the stroma of round, oval, and short comma-shaped structures with indistinct margins. Lattice lines were not visible. Histopathological study revealed positive Congo red areas of amyloid deposits typical for LCD. A novel heterozygous missense mutation p.Leu565Pro was identified in exon 13 of the TGFBI gene. The amino acid substitution was unambiguously predicted to have a high pathogenic potential. Conclusions: The mutant codon 565 is located at the C-terminus in the region corresponding to a highly conserved amino acid in the fourth fascilin domain of the TGFBI protein. The novel variant expands the spectrum of TGFBI mutations causing LCD and located in this region. An increased number of known mutations will facilitate future studies of genotype–phenotype correlations and molecular pathogenesis of corneal dystrophies.

The bimodal role of matrix metalloproteinases and their inhibitors in etiology and pathogenesis of endometriosis (Review)

Aberrant regulation of matrix metalloproteinases (MMPs) may be the primary cause of endometrial lesion formation in a group of predisposed women. Prospect for the genuine origin of endometriosis is ongoing, since retrograde menstruation leads to presence of endometrial debris in peritoneal cavity of many women, which do not experience endometriosis. Tissue remodeling is regulated precisely by a balance of MMPs and their inhibitors. Interplay between factors enhancing and suppressing matrix turnover is crucial for cyclic preparation of endometrium for embryo implantation, and endometrial shedding and renewal in physiology of primates. Disorders of the regulation of matrix remodeling leads to augmentation of implantation and invasive growth of ectopic endometrial tissue. Moreover, endometriosis-induced changes in the matrix balance leads to adhesion formation, ovulatory dysfunction and fertility impairment. The review summarizes the current knowledge regarding the regulation of extracellular matrix turnover in the physiology of the endometrial cycle and in the development of endometriosis, as well as the pathophysiology of ovulatory dysfunction in endometriotic women. Therapeutic modalities utilizing modulation of tissue remodeling were discussed.