CDH1 somatic alterations in Mexican patients with diffuse and mixed sporadic gastric cancer

Background: Diffuse gastric cancer (DGC) is associated with the reduction or absence of the expression of the cell adhesion protein E-cadherin (encoded by the CDH1 gene). Molecular characteristics are less well described for mixed gastric cancer (MGC). The main somatic alterations that have been described in the CDH1 gene are mutations, loss of heterozygosity (LOH) and promoter methylation. The aim was to analyze CDH1 somatic alterations in Mexican patients with diffuse and mixed gastric cancer. Methods: We searched for mutations in the CDH1 gene in tumor DNA from DGC (n = 13) and MGC (n = 7) patients by next generation sequencing (NGS). Validation of findings was performed using Sanger sequencing. LOH was analyzed using dinucleotide repeat markers surrounding the CDH1 gene, and methylation was investigated by DNA bisulfite conversion and sequencing. E-cadherin protein deficiency was analyzed by immunohistochemistry. Results: Seventeen point variants were identified by NGS, 13 of them were validated by Sanger sequencing. Only 1/13 had not been previously reported (c.-137C > A), and 12/13 were already reported as polymorphisms. Two DGC cases presented LOH at the locus 16q22.1 (13.3%). CDH1 promoter methylation was positive in (7/11) 63.6% and (4/6) 66.6% of the cases with DGC and MGC, respectively. E-cadherin protein deficiency was observed in 58.3% of DGC cases while 100% in MGC cases. Conclusions: While no pathogenic somatic mutations were found that could explain the diffuse histology of gastric cancer in DGC and MGC, methylation was the most common somatic inactivation event of the CDH1 gene, and LOH was rare. The previously unreported c.-137C > A variant modify the CDH1 gene expression since it alters the binding sites for transcription factors.This work was supported by the “Consejo Nacional de Ciencia y Tecnología (CONACYT)” (grant Ciencia Básica 2013–1-222972) and by the “Fondo de Investigación en Salud (FIS), Instituto Mexicano del Seguro Social (IMSS)” (grant FIS/IMSS/PROT/G13/1189), that contributed to the design of the study, collection, analysis, interpretation of data and writing the manuscript. We thank the following institutions: 1) Coordinación de Investigación en Salud (CIS), Instituto Mexicano del Seguro Social (IMSS) for the support given to ARBC, through the Professional Development in the International Research of Graduate Students (PRODESI) program; 2) Fundación IMSS, A.C. for the research grant awarded to JYSL and MTMT; 3) FEDER - Fundo Europeu de Desenvolvimento Regional funds through the COMPETE 2020 - Operational Programme for Competitiveness and Internationalisation (POCI), Portugal 2020, and by Portuguese funds through FCT/ Ministério da Ciência, Tecnologia e Inovação in the framework of the project “Institute for Research and Innovation in Health Sciences” (POCI-01-0145-FEDER-007274); 4) The project NORTE-01-0145-FEDER-000029, supported by Norte Portugal Regional Programme (NORTE 2020), under the PORTUGAL 2020 Partnership Agreement, through the European Regional Development Fund (ERDF); 5) FCT fellowships (SFRH/BPD/86543/2012 to JC; SFRH/BPD/89764/2012 to PO; PD/ BD/128007/2016 to AS). IPATIMUP integrates the i3S Research Unit, which is partially supported by FCT, the Portuguese Foundation for Science and Technology

Regeneration of the axotomised sciatic nerve in dogs using the tubulisation technique with chitosan bioma terial preloaded with progesterone [Regeneración del nervio ciático axotomizado del perro mediante la técnica de tubulización con el biomaterial quitosana precargado con progesterona]

Introduction. Injuries to peripheral nerves can have different causes and may lead to disorders affecting mobility, sensitivity and loss of motor function as they progress. Weiss, in 1944, introduced tubulisation to promote the regeneration of a sectioned nerve. In this study the biomaterial Chitosan was used to induce and stimulate the regeneration of the sciatic nerve in dogs. At the same time, we took advantage of the characteristics offered by Chitosan to include the neurosteroid progesterone in its matrix, as a promoter of axonal growth. Aims. The aim of our study was to determine the degree of regeneration of the sciatic nerve in dogs when axotomised-tubulised with a Chitosan prosthesis steeped in the neurosteroid progesterone. Materials and methods. Young adult female dogs were used to evaluate the regeneration of the sciatic nerve induced at a standard of 15 mm; regeneration was determined by means of an axonal growth chamber. Nerve growth was studied through histological analysis and by electron microscope. Results. The statistical analysis showed that there were no significant differences in the number of myelinated fibres between the experimental groups. The electron microscope images of the transmission in the regenerated nerves in the groups that were tubulised with Chitosan, with and without neurosteroid preloading, revealed an advanced regenerative process. This was evidenced by the fact that collagen fibres, elastin, Schwann cells and both myelinated and non-myelinated fibres were observed in all cases. Conclusions. The regeneration of axotomised, tubulised nerves was achieved regardless of the treatment that was applied. The distal nerve segment that was analysed revealed a similar structure to that of a normal nerve

[Regeneration of the axotomised sciatic nerve in dogs using the tubulisation technique with Chitosan biomaterial preloaded with progesterone]

INTRODUCTION: Injuries to peripheral nerves can have different causes and may lead to disorders affecting mobility, sensitivity and loss of motor function as they progress. Weiss, in 1944, introduced tubulisation to promote the regeneration of a sectioned nerve. In this study the biomaterial Chitosan was used to induce and stimulate the regeneration of the sciatic nerve in dogs. At the same time, we took advantage of the characteristics offered by Chitosan to include the neurosteroid progesterone in its matrix, as a promoter of axonal growth. AIMS. The aim of our study was to determine the degree of regeneration of the sciatic nerve in dogs when axotomised tubulised with a Chitosan prosthesis steeped in the neurosteroid progesterone. MATERIALS AND METHODS: Young adult female dogs were used to evaluate the regeneration of the sciatic nerve induced at a standard of 15 mm; regeneration was determined by means of an axonal growth chamber. Nerve growth was studied through histological analysis and by electron microscope. RESULTS: The statistical analysis showed that there were no significant differences in the number of myelinated fibres between the experimental groups. The electron microscope images of the transmission in the regenerated nerves in the groups that were tubulised with Chitosan, with and without neurosteroid preloading, revealed an advanced regenerative process. This was evidenced by the fact that collagen fibres, elastin, Schwann cells and both myelinated and non myelinated fibres were observed in all cases. CONCLUSIONS: The regeneration of axotomised, tubulised nerves was achieved regardless of the treatment that was applied. The distal nerve segment that was analysed revealed a similar structure to that of a normal nerve

Regeneration of the axotomised sciatic nerve in dogs using the tubulisation technique with chitosan bioma terial preloaded with progesterone [Regeneraci�n del nervio ci�tico axotomizado del perro mediante la t�cnica de tubulizaci�n con el biomaterial quitosana precargado con progesterona]

Introduction. Injuries to peripheral nerves can have different causes and may lead to disorders affecting mobility, sensitivity and loss of motor function as they progress. Weiss, in 1944, introduced tubulisation to promote the regeneration of a sectioned nerve. In this study the biomaterial Chitosan was used to induce and stimulate the regeneration of the sciatic nerve in dogs. At the same time, we took advantage of the characteristics offered by Chitosan to include the neurosteroid progesterone in its matrix, as a promoter of axonal growth. Aims. The aim of our study was to determine the degree of regeneration of the sciatic nerve in dogs when axotomised-tubulised with a Chitosan prosthesis steeped in the neurosteroid progesterone. Materials and methods. Young adult female dogs were used to evaluate the regeneration of the sciatic nerve induced at a standard of 15 mm; regeneration was determined by means of an axonal growth chamber. Nerve growth was studied through histological analysis and by electron microscope. Results. The statistical analysis showed that there were no significant differences in the number of myelinated fibres between the experimental groups. The electron microscope images of the transmission in the regenerated nerves in the groups that were tubulised with Chitosan, with and without neurosteroid preloading, revealed an advanced regenerative process. This was evidenced by the fact that collagen fibres, elastin, Schwann cells and both myelinated and non-myelinated fibres were observed in all cases. Conclusions. The regeneration of axotomised, tubulised nerves was achieved regardless of the treatment that was applied. The distal nerve segment that was analysed revealed a similar structure to that of a normal nerve

Regeneration of the dog's axotomized sciatic nerve with pregnenolone-saturated chitosan prosthesis implanted through the tubulization technique [Regeneración del nervio ciático axotomizado del perro con prótesis de quitosana precargadas con pregnenolona y la técnica de tubulización]

Peripheral nerves can be injured by traumatisms or mechanical causes, and thermal, ischemic or tumoral damage, this could present inconveniences of the mobility, sensibility and loss of motor function at the denervated area. The surgical techniques applied to repair nerves have gone through several phases of evolution such as the tubulization technique which consists of a prosthesis with a pipe shape at the segment injured. In this work the biomaterial utilized to manufacture the prosthesis was chitosan, since this compound allows to incorporate to its matrix promoting nervous growing substances that are released in situ for a long time while being degraded by titular lysosomes of organic origin. It is known, by diverse studies, that several neurosteroids are involved during the regeneration process of peripheral nerves, which functions are already described, as pregnenolone. In order to determine if there was or not regeneration and the degree of maturity of this,12 young French Poodle female dogs of 1 to 1.5 years old were used (four were used as intact control group, four were subjected to tubulization technique with chitosan, and four went into tubulization technique with chitosan and pregnenolone neurosteroid, which is a stem hormone), in order to correct 15 mm of axotomized segment. The regenerated nerves were evaluated by means of electronic microscopy of transmission and light, performing cross cuts of 60-70 nm and 1 μm in thickness for their histological analysis. The morphological findings showed a similar structure to that of an intact nerve, since the number of myelinated axons, not myelinated and the proportion "g" (which indicates the ripening degree of the axon), were similar, indicating that the regeneration of the axotomized nerves and tubulization was achieved, independently of the administered treatment

Immunotoxicity and hepatic function evaluation in Nile tilapia (Oreochromis niloticus) exposed to diazinon

The LC50 of the organophosphorus pesticides (OPs) diazinon to Nile tilapia (Oreochromis niloticus) was determined, thereafter, hepatic activity, phagocytic index, percentages of active cells, relative spleen weight, total IgM concentration and lymphoproliferation rates were compared between diazinon exposed groups (LC50 and 1/2LC50) and non-exposed control group. Experimental data show that diazinon is highly toxic for juvenile Nile tilapia (LC50 = 7.830 ppm) and presents immunotoxic properties which affect both the innate and cellular adaptive immune responses of this fish, as revealed by the fact that splenocyte proliferation and phagocytic indices were significantly decreased after acute exposure to the pesticide. However, the hepatic biochemical parameters and the total circulating IgM concentrations were not affected in this experimental model. � 2007 Elsevier Ltd. All rights reserved

Regeneration of the dog's axotomized sciatic nerve with pregnenolone-saturated chitosan prosthesis implanted through the tubulization technique [Regeneraci�n del nervio ci�tico axotomizado del perro con pr�tesis de quitosana precargadas con pregnenolona y la t�cnica de tubulizaci�n]

Peripheral nerves can be injured by traumatisms or mechanical causes, and thermal, ischemic or tumoral damage, this could present inconveniences of the mobility, sensibility and loss of motor function at the denervated area. The surgical techniques applied to repair nerves have gone through several phases of evolution such as the tubulization technique which consists of a prosthesis with a pipe shape at the segment injured. In this work the biomaterial utilized to manufacture the prosthesis was chitosan, since this compound allows to incorporate to its matrix promoting nervous growing substances that are released in situ for a long time while being degraded by titular lysosomes of organic origin. It is known, by diverse studies, that several neurosteroids are involved during the regeneration process of peripheral nerves, which functions are already described, as pregnenolone. In order to determine if there was or not regeneration and the degree of maturity of this,12 young French Poodle female dogs of 1 to 1.5 years old were used (four were used as intact control group, four were subjected to tubulization technique with chitosan, and four went into tubulization technique with chitosan and pregnenolone neurosteroid, which is a stem hormone), in order to correct 15 mm of axotomized segment. The regenerated nerves were evaluated by means of electronic microscopy of transmission and light, performing cross cuts of 60-70 nm and 1 ?m in thickness for their histological analysis. The morphological findings showed a similar structure to that of an intact nerve, since the number of myelinated axons, not myelinated and the proportion "g" (which indicates the ripening degree of the axon), were similar, indicating that the regeneration of the axotomized nerves and tubulization was achieved, independently of the administered treatment

Immunological study of a chitosan prosthesis in the sciatic nerve regeneration of the axotomized dog

This study demonstrated that when the regeneration of the axotomized sciatic nerve is induced through tubulization with chitosan, this biomaterial does not induce immunostimulation or immunodepression in the dog. Canine females were distributed among three groups: an intact control group which was only isolated, an axotomized control group, and an axotomized group which was tubulized with 3% chitosan prostheses. In vitro culture and phagocytosis tests, as well as IgG and IgM serum concentrations, were determined in peripheral blood on days 0, 15, 30 and 60. The results showed that chitosan implants did not importantly affect the immune response