scholarly journals Developmental Venous Anomalies are a Genetic Primer for Cerebral Cavernous Malformations

2021 ◽  
Author(s):  
Daniel A. Snellings ◽  
Romuald Girard ◽  
Rhonda Lightle ◽  
Abhinav Srinath ◽  
Sharbel Romanos ◽  
...  
Keyword(s):  
Somatic Mutations ◽  
Cerebral Cavernous Malformations ◽  
Cavernous Malformations ◽  
Clonal Population ◽  
Signaling Complex ◽  
Venous Anomalies ◽  
Brain Vasculature ◽  
Developmental Venous Anomalies ◽  
Single Nucleus ◽  
The Brain

AbstractCerebral cavernous malformations (CCM) are a neurovascular anomaly that may occur sporadically in otherwise healthy individuals, or be inherited by autosomal dominant mutations in the genes that encode the proteins of the CCM signaling complex (KRIT1, CCM2, or PDCD10)1–4. CCMs have long been known to follow a genetic two-hit model where lesion formation is initiated by somatic mutations resulting in biallelic loss of a CCM complex gene5–8. Recent studies have shown that somatic mutations in MAP3K3 and PIK3CA also contribute to CCM pathogenesis9–11; however, it remains unclear how these mutations contribute to sporadic versus familial cases. Here we show that somatic mutations in MAP3K3 are mutually exclusive with mutations in CCM complex genes and that mutations in MAP3K3 contribute to sporadic, but not familial CCM. Using single-nucleus DNA sequencing, we show that co-occurring MAP3K3 and PIK3CA mutations are present within the same clonal population of cells. Furthermore, we identify PIK3CA mutations in CCM-associated developmental venous anomalies (DVA). It has long been known that sporadic CCM often develop in the vicinity of a DVA. However, the underlying cause of this association is unknown12–14. In this first report of the molecular pathology of CCM-associated DVA, we find that the identical PIKC3A mutation is found in both the DVA and its associated CCM, but that an activating MAP3K3 mutation appears only in the CCM. These results support a mechanism where DVA develop as the result of a PIK3CA mutation, creating a region of the brain vasculature that functions as a genetic primer for CCM development following acquisition of an additional somatic mutation.

Cerebral cavernous malformations and developmental venous anomalies

2010 ◽  
pp. 189-220
Author(s):  
Philippe Metellus ◽  
Siddharth Kharkar ◽  
Doris Lin ◽  
Sumit Kapoor ◽  
Daniele Rigamonti
Keyword(s):  
Cerebral Cavernous Malformations ◽  
Cavernous Malformations ◽  
Venous Anomalies ◽  
Developmental Venous Anomalies

Prevalence of cerebral cavernous malformations associated with developmental venous anomalies increases with age

2017 ◽  
Vol 33 (9) ◽  
pp. 1539-1543 ◽  
Author(s):  
Waleed Brinjikji ◽  
Ali El-Rida El-Masri ◽  
John T. Wald ◽  
Kelly D. Flemming ◽  
Giuseppe Lanzino
Keyword(s):  
Cerebral Cavernous Malformations ◽  
Cavernous Malformations ◽  
Venous Anomalies ◽  
Developmental Venous Anomalies

Aeromedical Implications of Cerebral Cavernomas

2021 ◽  
Vol 92 (2) ◽  
pp. 120-123
Author(s):  
Tania Jagathesan ◽  
Michael OBrien
Keyword(s):  
Clinical Presentation ◽  
Clinical Symptoms ◽  
Civil Aviation ◽  
Complication Rates ◽  
Cerebral Cavernous Malformations ◽  
Cavernous Malformations ◽  
Medical Certification ◽  
The Uk ◽  
Age Range ◽  
The Brain

BACKGROUND: Cavernomas, cavernous angiomas, or cerebral cavernous malformations are clusters of endothelium-lined blood vessels usually found in the brain. With the increasing use of radiological imaging, these are being detected incidentally in asymptomatic aircrew. The UK Civil Aviation Authority (CAA) experience of cavernomas is described and the aeromedical concerns, that is, the risk of epilepsy, hemorrhage, and the development of a neurological deficit, are considered.METHODS: A search of the CAA database between 1990 and 2020 was performed for the term cavernoma. The gender, age at diagnosis, class of certification held, clinical presentation, location, and size of the lesion were noted. A PubMed literature review for papers with complications of cavernoma was performed.RESULTS: Six cases of cavernoma have been declared to the CAA: five professional pilots and one private pilot. Five were men and one was a woman. The age range was between 38 and 60 yr, with a mean of 48 yr. Two cases presented with clinical symptoms and four were asymptomatic. Complication rates for seizure and hemorrhage were extracted from the published literature together with the significance of other factors such as cavernoma size, family history, multiplicity, and the development of new lesions.DISCUSSION: A policy for the medical certification of aircrew with cavernomas that have presented with clinical symptoms and those that are detected incidentally is proposed.Jagathesan T, OBrien M. Aeromedical implications of cerebral cavernomas. Aerosp Med Hum Perform. 2021; 92(2):120123.

scholarly journals Mural Cell-Specific Deletion of Cerebral Cavernous Malformation 3 in the Brain Induces Cerebral Cavernous Malformations

2020 ◽  
Vol 40 (9) ◽  
pp. 2171-2186
Author(s):  
Kang Wang ◽  
Haifeng Zhang ◽  
Yun He ◽  
Quan Jiang ◽  
Yoshiaki Tanaka ◽  
...  
Keyword(s):  
Endothelial Cell ◽  
Adhesion Formation ◽  
Single Layer ◽  
Cerebral Cavernous Malformations ◽  
Mural Cell ◽  
Cavernous Malformations ◽  
Mural Cells ◽  
Brain Pericytes ◽  
The Brain ◽  
Specific Deletion

Objective: Cerebral cavernous malformations (CCM), consisting of dilated capillary channels formed by a single layer of endothelial cells lacking surrounding mural cells. It is unclear why CCM lesions are primarily confined to brain vasculature, although the 3 CCM-associated genes ( CCM1 , CCM2 , and CCM3 ) are ubiquitously expressed in all tissues. We aimed to determine the role of CCM gene in brain mural cell in CCM pathogenesis. Approach and Results: SM22α -Cre was used to drive a specific deletion of Ccm3 in mural cells, including pericytes and smooth muscle cells (Ccm3smKO). Ccm3smKO mice developed CCM lesions in the brain with onset at neonatal stages. One-third of Ccm3smKO mice survived upto 6 weeks of age, exhibiting seizures, and severe brain hemorrhage. The early CCM lesions in Ccm3smKO neonates were loosely wrapped by mural cells, and adult Ccm3smKO mice had clustered and enlarged capillary channels (caverns) formed by a single layer of endothelium lacking mural cell coverage. Importantly, CCM lesions throughout the entire brain in Ccm3smKO mice, which more accurately mimicked human disease than the current endothelial cell-specific CCM3 deletion models. Mechanistically, CCM3 loss in brain pericytes dramatically increased paxillin stability and focal adhesion formation, enhancing ITG-β1 (integrin β1) activity and extracellular matrix adhesion but reducing cell migration and endothelial cell-pericyte associations. Moreover, CCM3-wild type, but not a paxillin-binding defective mutant, rescued the phenotypes in CCM3-deficient pericytes. Conclusions: Our data demonstrate for the first time that deletion of a CCM gene in the brain mural cell induces CCM pathogenesis.

scholarly journals Thrombosis of Developmental Venous Anomalies of the Brain After Liver Transplantation

2009 ◽  
Vol 87 (4) ◽  
pp. 615-616 ◽  
Author(s):  
Roberto Ballarin ◽  
Fabrizio Di Benedetto ◽  
Nicola De Ruvo ◽  
Michele Masetti ◽  
Roberto Montalti ◽  
...  
Keyword(s):  
Liver Transplantation ◽  
Venous Anomalies ◽  
Developmental Venous Anomalies ◽  
The Brain

scholarly journals Systems-wide analysis unravels the new roles of CCM signal complex (CSC)

2019 ◽  
Author(s):  
Johnathan Abou-Fadel ◽  
Mariana Vasquez ◽  
Brian Grajeda ◽  
Cameron Ellis ◽  
Jun Zhang
Keyword(s):  
Cerebral Cavernous Malformations ◽  
Rna Seq ◽  
Vascular Integrity ◽  
Cavernous Malformations ◽  
Signaling Complex ◽  
Protein Levels ◽  
Global View ◽  
Cellular Factors ◽  
Β4 Integrin ◽  
Increased Susceptibility

AbstractCerebral cavernous malformations (CCMs) are characterized by abnormally dilated intracranial capillaries that result in increased susceptibility to stroke. Three genes have been identified as causes of CCMs; KRIT1 (CCM1), MGC4607 (CCM2) and PDCD10 (CCM3); one of them is disrupted in most CCM cases. It was demonstrated that both CCM1 and CCM3 bind to CCM2 to form a CCM signaling complex (CSC) to modulate angiogenesis. In this report, we deployed both RNA-seq and proteomic analysis of perturbed CSC after depletion of one of three CCM genes to generate interactomes for system-wide studies. Our results demonstrated a unique portrait detailing alterations in angiogenesis and vascular integrity. Interestingly, only in-direct overlapped alterations between RNA and protein levels were detected, supporting the existence of multiple layers of regulation in CSC cascades. Notably, this is the first report identifying that both β4 integrin and CAV1 signaling are downstream of CSC, conveying the angiogenic signaling. Our results provide a global view of signal transduction modulated by the CSC, identifies novel regulatory signaling networks and key cellular factors associated with CSC.

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