Dieter Pullirsch scite author profile

SUMMARYMammals compensate X chromosome gene dosage between the sexes by silencing of one of the two female X chromosomes. X inactivation is initiated in the early embryo and requires the non-coding Xist RNA, which encompasses the inactive X chromosome (Xi) and triggers its silencing. In differentiated cells, several factors including the histone variant macroH2A and the scaffold attachment factor SAF-A are recruited to the Xi and maintain its repression. Consequently, in female somatic cells the Xi remains stably silenced independently of Xist. Here, we identify the Trithorax group protein Ash2l as a novel component of the Xi. Ash2l is recruited by Xist concomitantly with Saf-A and macroH2A at the transition to Xi maintenance. Recruitment of these factors characterizes a developmental transition point for the chromatin composition of the Xi. Surprisingly, expression of a mutant Xist RNA that does not cause gene repression can trigger recruitment of Ash2l, Saf-A and macroH2A to the X chromosome, and can cause chromosome-wide histone H4 hypoacetylation. This suggests that a chromatin configuration is established on non-genic chromatin on the Xi by Xist to provide a repressive compartment that could be used for maintaining gene silencing. Gene silencing is mechanistically separable from the formation of this repressive compartment and, thus, requires additional pathways. This observation highlights a crucial role for spatial organization of chromatin changes in the maintenance of X inactivation.

show abstract

RNA editing of Filamin A pre‐ mRNA regulates vascular contraction and diastolic blood pressure

Jain

et al. 2018

View full text Add to dashboard Cite

Epitranscriptomic events such as adenosine‐to‐inosine (A‐to‐I) RNA editing by ADAR can recode mRNAs to translate novel proteins. Editing of the mRNA that encodes actin crosslinking protein Filamin A (FLNA) mediates a Q‐to‐R transition in the interactive C‐terminal region. While FLNA editing is conserved among vertebrates, its physiological function remains unclear. Here, we show that cardiovascular tissues in humans and mice show massive editing and that FLNA RNA is the most prominent substrate. Patient‐derived RNA‐Seq data demonstrate a significant drop in FLNA editing associated with cardiovascular diseases. Using mice with only impaired FLNA editing, we observed increased vascular contraction and diastolic hypertension accompanied by increased myosin light chain phosphorylation, arterial remodeling, and left ventricular wall thickening, which eventually causes cardiac remodeling and reduced systolic output. These results demonstrate a causal relationship between RNA editing and the development of cardiovascular disease indicating that a single epitranscriptomic RNA modification can maintain cardiovascular health.

show abstract

Xist and the order of silencing

et al. 2007

View full text Add to dashboard Cite

X inactivation is the mechanism by which mammals adjust the genetic imbalance that arises from the different numbers of gene-rich X chromosomes between the sexes. The dosage difference between XX females and XY males is functionally equalized by silencing one of the two X chromosomes in females. This dosage-compensation mechanism seems to have arisen concurrently with early mammalian evolution and is based on the long functional Xist RNA, which is unique to placental mammals. It is likely that previously existing mechanisms for other cellular functions have been recruited and adapted for the evolution of X inactivation. Here, we critically review our understanding of dosage compensation in placental mammals and place these findings in the context of other cellular processes that intersect with mammalian dosage compensation.

show abstract

Selective upregulation of vascular endothelial growth factor receptors neuropilin‐1 and ‐2 in human neuroblastoma

Fakhari

Pullirsch

Abraham

et al. 2001

Cancer

View full text Add to dashboard Cite

BACKGROUND Recent studies show that vascular endothelial growth factor (VEGF) and its receptors Flt‐1 and KDR, and a series of other angiogenic molecules, are upregulated in advanced but not low stage human neuroblastoma. Neuropilin‐1 and 2 (NRP) are novel specific receptors of VEGF165, whose role is unknown in human neuroblastoma. METHODS Tissue biopsies of 37 children with Stage I‐IV neuroblastoma were obtained, as well as biopsies of 7 normal adrenals as controls. The mRNA expression of VEGF165 and its receptors Flt‐1, KDR, NRP1, and NRP2 was evaluated by real‐time reverse transcripton polymerase chain reaction. NRP protein expression was detected by immunocytochemistry and Western blotting. RESULTS VEGF165 mRNA was upregulated in Stage III and IV and Flt‐1 and KDR gene expression was increased in Stage III, while NRP1 and 2 mRNA and protein levels were higher in Stages I‐IV vs. controls (P < 0.05). NRP was expressed in vascular endothelial but not tumor cells. CONCLUSIONS These results show for the first time that human neuroblastoma expresses NRP, and that NRP co‐regulates VEGF angiogenic effect in human neuroblastoma. NRP might be a sensitive angiogenic measure of VEGF systems in neuroblastoma, particularly in its early stages. Cancer 2002;94:258–63. © 2002 American Cancer Society.

show abstract

Proteome diversification by adenosine to inosine RNA-editing

Pullirsch

Jantsch²

2010

RNA Biology

View full text Add to dashboard Cite

Upregulation of vascular endothelial growth factor receptors is associated with advanced neuroblastoma

Fakhari

Pullirsch

Paya

et al. 2002

Journal of Pediatric Surgery

View full text Add to dashboard Cite

Animal testing for vaccines. Implementing replacement, reduction and refinement: challenges and priorities

Akkermans

Chapsal²,

Coccia

et al. 2020

Biologicals

View full text Add to dashboard Cite

Transition to in vitro alternative methods to in vivo in vaccine release testing and characterization, the implementation of the consistency approach, and a drive towards international harmonization of regulatory requirements are most pressing needs in the field of vaccines. It is critical for global vaccine community to work together to secure effective progress towards animal welfare and to ensure that vaccines of ever higher quality can reach the populations in need in the shortest possible timeframe. Advancements in the field, case studies, and experiences from Low and Middle Income Countries (LMIC) were the topics discussed by an international gathering of experts during a recent conference titled “ Animal Testing for Vaccines – Implementing Replacement, Reduction and Refinement: Challenges and Priorities ”. This conference was organized by the International Alliance for Biological Standardization (IABS), and held in Bangkok, Thailand on December 3 and 4 2019. Participants comprised stakeholders from many parts of the world, including vaccine developers, manufacturers and regulators from Asia, Europe, North America, Australia and New Zealand. In interactive workshops and vibrant panel discussions, the attendees worked together to identify the remaining barriers to validation, acceptance and implementation of alternative methods, and how harmonization could be promoted, especially for LMICs.

show abstract

Microbiological contamination in counterfeit and unapproved drugs

Pullirsch

Bellemare

Hackl

et al. 2014

BMC Pharmacol Toxicol

View full text Add to dashboard Cite

BackgroundCounterfeit and unapproved medicines are inherently dangerous and can cause patient injury due to ineffectiveness, chemical or biological contamination, or wrong dosage. Growth of the counterfeit medical market in developed countries is mainly attributable to life-style drugs, which are used in the treatment of non-life-threatening and non-painful conditions, such as slimming pills, cosmetic-related pharmaceuticals, and drugs for sexual enhancement. One of the main tasks of health authorities is to identify the exact active pharmaceutical ingredients (APIs) in confiscated drugs, because wrong API compounds, wrong concentrations, and/or the presence of chemical contaminants are the main risks associated with counterfeit medicines. Serious danger may also arise from microbiological contamination. We therefore performed a market surveillance study focused on the microbial burden in counterfeit and unapproved medicines.MethodsCounterfeit and unapproved medicines confiscated in Canada and Austria and controls from the legal market were examined for microbial contaminations according to the US and European pharmacopoeia guidelines. The microbiological load of illegal and legitimate samples was statistically compared with the Wilcoxon rank-sum test.ResultsMicrobial cultivable contaminations in counterfeit and unapproved phosphodiesterase type 5 inhibitors were significantly higher than in products from the legal medicines market (p < 0.0001). Contamination levels exceeding the USP and EP limits were seen in 23% of the tested illegal samples in Canada. Additionally, microbiological contaminations above the pharmacopoeial limits were detected in an anabolic steroid and an herbal medicinal product in Austria (6% of illegal products tested).ConclusionsOur results show that counterfeit and unapproved pharmaceuticals are not manufactured under the same hygienic conditions as legitimate products. The microbiological contamination of illegal medicinal products often exceeds USP and EP limits, representing a potential threat to consumer health.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.