Your search keyword '"Breiksa, Austra"' showing total 7 results

1. Transcriptome of GH-producing pituitary neuroendocrine tumours and models are significantly affected by somatostatin analogues

Author

Saksis, Rihards, Rogoza, Olesja, Niedra, Helvijs, Megnis, Kaspars, Mandrika, Ilona, Balcere, Inga, Steina, Liva, Stukens, Janis, Breiksa, Austra, Nazarovs, Jurijs, Sokolovska, Jelizaveta, Konrade, Ilze, Peculis, Raitis, and Rovite, Vita

Published

2023

2. Case report: recurrent pituitary adenoma has increased load of somatic variants

Author

Peculis, Raitis, Balcere, Inga, Radovica-Spalvina, Ilze, Konrade, Ilze, Caune, Olivija, Megnis, Kaspars, Rovite, Vita, Stukens, Janis, Nazarovs, Jurijs, Breiksa, Austra, Kiecis, Aigars, Silamikelis, Ivars, Pirags, Valdis, and Klovins, Janis

Published

2020

3. Whole exome sequencing reveals novel risk genes of pituitary neuroendocrine tumors.

Author

Peculis, Raitis, Rovite, Vita, Megnis, Kaspars, Balcere, Inga, Breiksa, Austra, Nazarovs, Jurijs, Stukens, Janis, Konrade, Ilze, Sokolovska, Jelizaveta, Pirags, Valdis, and Klovins, Janis

Subjects

PITUITARY tumors, NEUROENDOCRINE tumors, GENETIC variation, EXOMES, GENES, DATA analysis

Abstract

Somatic genetic alterations in pituitary neuroendocrine tumors (PitNET) tissues have been identified in several studies, but detection of overlapping somatic PitNET candidate genes is rare. We sequenced and by employing multiple data analysis methods studied the exomes of 15 PitNET patients to improve discovery of novel factors involved in PitNET development. PitNET patients were recruited to the study before PitNET removal surgery. For each patient, two samples for DNA extraction were acquired: venous blood and PitNET tissue. Exome sequencing was performed using Illumina NexSeq 500 sequencer and data analyzed using two separate workflows and variant calling algorithms: GATK and Strelka2. A combination of two data analysis pipelines discovered 144 PitNET specific somatic variants (mean = 9.6, range 0–19 per PitNET) of which all were SNVs. Also, we detected previously known GNAS PitNET mutation and identified somatic variants in 11 genes, which have contained somatic variants in previous WES and WGS studies of PitNETs. Noteworthy, this is the third study detecting somatic variants in gene RYR1 in the exomes of PitNETs. In conclusion, we have identified two novel PitNET candidate genes (AC002519.6 and AHNAK) with recurrent somatic variants in our PitNET cohort and found 13 genes overlapping from previous PitNET studies that contain somatic variants. Our study demonstrated that the use of multiple sequencing data analysis pipelines can provide more accurate identification of somatic variants in PitNETs. [ABSTRACT FROM AUTHOR]

Published

2022

4. Medication for Acromegaly Reduces Expression of MUC16, MACC1 and GRHL2 in Pituitary Neuroendocrine Tumour Tissue.

Author

Saksis, Rihards, Silamikelis, Ivars, Laksa, Pola, Megnis, Kaspars, Peculis, Raitis, Mandrika, Ilona, Rogoza, Olesja, Petrovska, Ramona, Balcere, Inga, Konrade, Ilze, Steina, Liva, Stukens, Janis, Breiksa, Austra, Nazarovs, Jurijs, Sokolovska, Jelizaveta, Pirags, Valdis, Klovins, Janis, and Rovite, Vita

Subjects

ACROMEGALY, CARCINOGENS, PHARMACOLOGY, SOMATOTROPIN, PITUITARY tumors, PROTEIN-protein interactions

Abstract

Acromegaly is a disease mainly caused by pituitary neuroendocrine tumor (PitNET) overproducing growth hormone. First-line medication for this condition is the use of somatostatin analogs (SSAs), that decrease tumor mass and induce antiproliferative effects on PitNET cells. Dopamine agonists (DAs) can also be used if SSA treatment is not effective. This study aimed to determine differences in transcriptome signatures induced by SSA/DA therapy in PitNET tissue. We selected tumor tissue from twelve patients with somatotropinomas, with half of the patients receiving SSA/DA treatment before surgery and the other half treatment naive. Transcriptome sequencing was then carried out to identify differentially expressed genes (DEGs) and their protein–protein interactions, using pathway analyses. We found 34 upregulated and six downregulated DEGs in patients with SSA/DA treatment. Three tumor development promoting factors MUC16, MACC1 , and GRHL2 , were significantly downregulated in therapy administered PitNET tissue; this finding was supported by functional studies in GH3 cells. Protein–protein interactions and pathway analyses revealed extracellular matrix involvement in the antiproliferative effects of this type of the drug treatment, with pronounced alterations in collagen regulation. Here, we have demonstrated that somatotropinomas can be distinguished based on their transcriptional profiles following SSA/DA therapy, and SSA/DA treatment does indeed cause changes in gene expression. Treatment with SSA/DA significantly downregulated several factors involved in tumorigenesis, including MUC16, MACC1 , and GRHL2. Genes that were upregulated, however, did not have a direct influence on antiproliferative function in the PitNET cells. These findings suggested that SSA/DA treatment acted in a tumor suppressive manner and furthermore, collagen related interactions and pathways were enriched, implicating extracellular matrix involvement in this anti-tumor effect of drug treatment. [ABSTRACT FROM AUTHOR]

Published

2021

5. Evaluation of the Possibility to Detect Circulating Tumor DNA From Pituitary Adenoma.

Author

Megnis, Kaspars, Peculis, Raitis, Rovite, Vita, Laksa, Pola, Niedra, Helvijs, Balcere, Inga, Caune, Olivija, Breiksa, Austra, Nazarovs, Jurijs, Stukens, Janis, Konrade, Ilze, Pirags, Valdis, and Klovins, Janis

Subjects

CIRCULATING tumor DNA, BLOOD plasma

Abstract

Objective: Circulating free DNA (cfDNA) in general and circulating tumor DNA (ctDNA) in particular is becoming an increasingly used form of liquid biopsy biomarkers. In this study, we are investigating the ability to detect ctDNA from the plasma of pituitary adenoma (PA) patients. Design: Tumor tissue samples were obtained from planed PA resections, before which blood plasma samples were taken. Somatic variants found in PA tissue samples were evaluated in related cfDNA, isolated from plasma samples. Methods: Sanger sequencing, as well as previously obtained whole-exome sequencing data, were used to evaluate somatic variants composition in tumor tissue samples. cfDNA was isolated from the same PA patients and competitive allele-specific TaqMan PCR and amplicon-based next-generation sequencing (NGS) approach were used for targeted detection of variants found in corresponding tumor tissue samples. Results: Using NGS-based analysis, we detected five out of 17 somatic variants in 40 to 60% of total reads, three variants in 0.50–5.00% of total read count, including GNAS c.601C>T, which was detected using ultra-deep NGS (1.78 million X) in 0.77% of amplicons reads. Nine variants were not detected. We also detected We were not able to detect variant found in PA tissue in cfDNA using cast-PCR, indicating that the portion of variant-containing ctDNA in total isolated cfDNA is too small to be detected with this method. Conclusions: For the first time, we demonstrate the possibility to detect somatic variants of PA in cfDNA isolated from patients' blood plasma. Whether the source of variant detected in cfDNA is PA should be further tested. [ABSTRACT FROM AUTHOR]

Published

2019

6. Tumor and α‐SMA‐expressing stromal cells in pancreatic neuroendocrine tumors have a distinct RNA profile depending on tumor grade.

Author

Niedra, Helvijs, Peculis, Raitis, Saksis, Rihards, Mandrika, Ilona, Vilisova, Sofija, Nazarovs, Jurijs, Breiksa, Austra, Gerina, Aija, Earl, Julie, Ruz‐Caracuel, Ignacio, Rosas, Marta Gabriela, Pukitis, Aldis, Senterjakova, Natalja, and Rovite, Vita

Subjects

*GENE expression profiling, *STROMAL cells, *GENE expression, *PANCREATIC tumors, *NEUROENDOCRINE tumors

Abstract

Alpha‐smooth muscle actin (α‐SMA) expression in the stroma is linked to the presence of cancer‐associated fibroblasts and is known to correlate with worse outcomes in various tumors. In this study, using a GeoMx digital spatial profiling approach, we characterized the gene expression of the tumor and α‐SMA‐expressing stromal cell compartments in pancreatic neuroendocrine tumors (PanNETs). The profiling was performed on tissues from eight retrospective cases (three grade 1, four grade 2, and one grade 3). Selected regions of interest were segmented geometrically based on tissue morphology and fluorescent signals from synaptophysin and α‐SMA markers. The α‐SMA‐expressing stromal‐cell‐associated genes were involved in pathways of extracellular matrix modification, whereas, in tumor cells, the gene expression profiles were associated with pathways involved in cell proliferation. The comparison of gene expression profiles across all three PanNET grades revealed that the differences between grades are not only present at the level of the tumor but also in the α‐SMA‐expressing stromal cells. Furthermore, the tumor cells from regions with a rich presence of adjacent α‐SMA‐expressing stromal cells revealed an upregulation of matrix metalloproteinase‐9 (MMP9) expression in grade 3 tumors. This study provides an in‐depth characterization of gene expression profiles in α‐SMA‐expressing stromal and tumor cells, and outlines potential crosstalk mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

7. Genome wide analysis of circulating miRNAs in growth hormone secreting pituitary neuroendocrine tumor patients' plasma.

Author

Niedra H, Peculis R, Litvina HD, Megnis K, Mandrika I, Balcere I, Romanovs M, Steina L, Stukens J, Breiksa A, Nazarovs J, Sokolovska J, Liutkeviciene R, Vilkevicute A, Konrade I, and Rovite V

Abstract

Background: Circulating plasma miRNAs have been increasingly studied in the field of pituitary neuroendocrine tumor (PitNET) research. Our aim was to discover circulating plasma miRNAs species associated with growth hormone (GH) secreting PitNETs versus assess how the plasma levels of discovered miRNA candidates are impacted by SSA therapy and whether there is a difference in their levels between GH secreting PitNETs versus other PitNET types and healthy individuals., Design: We compared plasma miRNA content and levels before and after surgery focusing on GH secreting PitNET patients. Selected miRNA candidates from our data and literature were then tested in a longitudinal manner in somatostatin analogues (SSA) treatment group. Additionally, we validated selected targets in an independent GH secreting PitNET group., Methods: miRNA candidates were discovered using the whole miRNA sequencing approach and differential expression analysis. Selected miRNAs were then analyzed using real-time polymerase chain reaction (qPCR)., Results: Whole miRNA sequencing discovered a total of 16 differentially expressed miRNAs (DEMs) in GH secreting PitNET patients' plasma 24 hours after surgery and 19 DEMs between GH secreting PitNET patients' plasma and non-functioning (NF) PitNET patients' plasma. Seven miRNAs were selected for further testing of which miR-625-5p, miR-503-5p miR-181a-2-3p and miR-130b-3p showed a significant downregulation in plasma after 1 month of SSA treatment. mir-625-5p was found to be significantly downregulated in plasma of GH secreting PitNET patients vs. NF PitNET patients. miR-625-5p alongside miR-130b-3p were also found to be downregulated in GH PitNETs compared to healthy individuals., Conclusions: Our study suggests that expression of plasma miRNAs miR-625-5p, miR-503-5p miR-181a-2-3p and miR-130b-3p in GH secreting PitNETs is affected by SSA treatment. Additionally, miR-625-5p can distinguish GH secreting PitNETs from other PitNET types and healthy controls warranting further research on these miRNAs for treatment efficacy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Niedra, Peculis, Litvina, Megnis, Madrika, Balcere, Romanovs, Steina, Stukens, Breiksa, Nazarovs, Sokolovska, Liutkeviciene, Vilkevicute, Konrade and Rovite.)

Published

2022