Mechanistic insight into the physiological relevance of helical blood flow in the human aorta: an in vivo study

2010 ◽  
Vol 10 (3) ◽  
pp. 339-355 ◽  
Author(s):  
Umberto Morbiducci ◽  
Raffaele Ponzini ◽  
Giovanna Rizzo ◽  
Marcello Cadioli ◽  
Antonio Esposito ◽  
...  
Keyword(s):  
Blood Flow ◽  
In Vivo Study ◽  
Human Aorta ◽  
Mechanistic Insight ◽  
Physiological Relevance ◽  
Insight Into

Preservation of sickle cell blood-flow patterns during MR imaging: an in vivo study

1988 ◽  
Vol 151 (1) ◽  
pp. 139-141 ◽  
Author(s):  
AS Brody ◽  
SH Embury ◽  
WC Mentzer ◽  
ML Winkler ◽  
CA Gooding
Keyword(s):  
Blood Flow ◽  
Mr Imaging ◽  
Sickle Cell ◽  
Flow Patterns ◽  
In Vivo Study ◽  
Blood Flow Patterns

scholarly journals SARS-CoV-2 Spike triggers barrier dysfunction and vascular leak via integrins and TGF-β signaling

2021 ◽  
Author(s):  
Scott B Biering ◽  
Francielle Tramontini Gomes de Sousa ◽  
Laurentia V. Tjang ◽  
Felix Pahmeier ◽  
Richard Ruan ◽  
...  
Keyword(s):  
Transcriptional Response ◽  
Barrier Dysfunction ◽  
Vascular Leak ◽  
Endothelial Barrier Dysfunction ◽  
Mechanistic Insight ◽  
Starting Point ◽  
Signaling Axis ◽  
Insight Into

Severe COVID-19 is associated with epithelial and endothelial barrier dysfunction within the lung as well as in distal organs. While it is appreciated that an exaggerated inflammatory response is associated with barrier dysfunction, the triggers of this pathology are unclear. Here, we report that cell-intrinsic interactions between the Spike (S) glycoprotein of SARS-CoV-2 and epithelial/endothelial cells are sufficient to trigger barrier dysfunction in vitro and vascular leak in vivo, independently of viral replication and the ACE2 receptor. We identify an S-triggered transcriptional response associated with extracellular matrix reorganization and TGF-β signaling. Using genetic knockouts and specific inhibitors, we demonstrate that glycosaminoglycans, integrins, and the TGF-β signaling axis are required for S-mediated barrier dysfunction. Our findings suggest that S interactions with barrier cells are a contributing factor to COVID-19 disease severity and offer mechanistic insight into SARS-CoV-2 triggered vascular leak, providing a starting point for development of therapies targeting COVID-19 pathogenesis.

scholarly journals Histone H3K23-specific acetylation by MORF is coupled to H3K14 acylation

2019 ◽  
Vol 10 (1) ◽  
Author(s):  
Brianna J. Klein ◽  
Suk Min Jang ◽  
Catherine Lachance ◽  
Wenyi Mi ◽  
Jie Lyu ◽  
...  
Keyword(s):  
Posttranslational Modification ◽  
Memory Impairment ◽  
Target Genes ◽  
Epigenetic Mark ◽  
Mechanistic Insight ◽  
Genomic Analyses ◽  
Insight Into

Abstract Acetylation of histone H3K23 has emerged as an essential posttranslational modification associated with cancer and learning and memory impairment, yet our understanding of this epigenetic mark remains insufficient. Here, we identify the native MORF complex as a histone H3K23-specific acetyltransferase and elucidate its mechanism of action. The acetyltransferase function of the catalytic MORF subunit is positively regulated by the DPF domain of MORF (MORFDPF). The crystal structure of MORFDPF in complex with crotonylated H3K14 peptide provides mechanistic insight into selectivity of this epigenetic reader and its ability to recognize both histone and DNA. ChIP data reveal the role of MORFDPF in MORF-dependent H3K23 acetylation of target genes. Mass spectrometry, biochemical and genomic analyses show co-existence of the H3K23ac and H3K14ac modifications in vitro and co-occupancy of the MORF complex, H3K23ac, and H3K14ac at specific loci in vivo. Our findings suggest a model in which interaction of MORFDPF with acylated H3K14 promotes acetylation of H3K23 by the native MORF complex to activate transcription.

scholarly journals Acceleration of conduction velocity linked to clustering of nodal components precedes myelination

2015 ◽  
Vol 112 (3) ◽  
pp. E321-E328 ◽  
Author(s):  
Sean A. Freeman ◽  
Anne Desmazières ◽  
Jean Simonnet ◽  
Marie Gatta ◽  
Friederike Pfeiffer ◽  
...  
Keyword(s):  
Hippocampal Neurons ◽  
Pyramidal Neurons ◽  
Axonal Conduction ◽  
Electrophysiological Recordings ◽  
Single Axon ◽  
Physiological Relevance ◽  
Saltatory Conduction ◽  
Insight Into

High-density accumulation of voltage-gated sodium (Nav) channels at nodes of Ranvier ensures rapid saltatory conduction along myelinated axons. To gain insight into mechanisms of node assembly in the CNS, we focused on early steps of nodal protein clustering. We show in hippocampal cultures that prenodes (i.e., clusters of Nav channels colocalizing with the scaffold protein ankyrinG and nodal cell adhesion molecules) are detected before myelin deposition along axons. These clusters can be induced on purified neurons by addition of oligodendroglial-secreted factor(s), whereas ankyrinG silencing prevents their formation. The Nav isoforms Nav1.1, Nav1.2, and Nav1.6 are detected at prenodes, with Nav1.6 progressively replacing Nav1.2 over time in hippocampal neurons cultured with oligodendrocytes and astrocytes. However, the oligodendrocyte-secreted factor(s) can induce the clustering of Nav1.1 and Nav1.2 but not of Nav1.6 on purified neurons. We observed that prenodes are restricted to GABAergic neurons, whereas clustering of nodal proteins only occurs concomitantly with myelin ensheathment on pyramidal neurons, implying separate mechanisms of assembly among different neuronal subpopulations. To address the functional significance of these early clusters, we used single-axon electrophysiological recordings in vitro and showed that prenode formation is sufficient to accelerate the speed of axonal conduction before myelination. Finally, we provide evidence that prenodal clusters are also detected in vivo before myelination, further strengthening their physiological relevance.

scholarly journals In vivo study of acute effects of hip and knee positions on blood flow in canine sciatic nerve

2002 ◽  
Vol 26 (5) ◽  
pp. 296-298 ◽  
Author(s):  
Kei Koga ◽  
Masatoshi Naito ◽  
Yuichiro Akiyoshi ◽  
Isao Asayama ◽  
Kei Shiramizu ◽  
...  
Keyword(s):  
Blood Flow ◽  
Sciatic Nerve ◽  
In Vivo Study ◽  
Acute Effects

scholarly journals An insight into dentin desensitizing agents - In vivo study

2013 ◽  
Vol 24 (5) ◽  
pp. 571 ◽  
Author(s):  
Purvi Mehta ◽  
N Vimala ◽  
Lalitagauri Mandke
Keyword(s):  
In Vivo Study ◽  
Desensitizing Agents ◽  
Insight Into

scholarly journals Mycolactone toxin induces an inflammatory response by targeting the IL-1β pathway: Mechanistic insight into Buruli ulcer pathophysiology

2020 ◽  
Vol 16 (12) ◽  
pp. e1009107
Author(s):  
M. Foulon ◽  
M. Robbe-Saule ◽  
J. Manry ◽  
L. Esnault ◽  
Y. Boucaud ◽  
...  
Keyword(s):  
Inflammatory Response ◽  
Buruli Ulcer ◽  
Mycobacterium Ulcerans ◽  
Inflammatory Factors ◽  
Dependent Manner ◽  
Local Inflammatory Response ◽  
Mechanistic Insight ◽  
Insight Into

Mycolactone, a lipid-like toxin, is the major virulence factor of Mycobacterium ulcerans, the etiological agent of Buruli ulcer. Its involvement in lesion development has been widely described in early stages of the disease, through its cytotoxic and immunosuppressive activities, but less is known about later stages. Here, we revisit the role of mycolactone in disease outcome and provide the first demonstration of the pro-inflammatory potential of this toxin. We found that the mycolactone-containing mycobacterial extracellular vesicles produced by M. ulcerans induced the production of IL-1β, a potent pro-inflammatory cytokine, in a TLR2-dependent manner, targeting NLRP3/1 inflammasomes. We show our data to be relevant in a physiological context. The in vivo injection of these mycolactone-containing vesicles induced a strong local inflammatory response and tissue damage, which were prevented by corticosteroids. Finally, several soluble pro-inflammatory factors, including IL-1β, were detected in infected tissues from mice and Buruli ulcer patients. Our results revisit Buruli ulcer pathophysiology by providing new insight, thus paving the way for the development of new therapeutic strategies taking the pro-inflammatory potential of mycolactone into account.

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