Review: Molecular genetics and pathology of hereditary small vessel diseases of the brain

Yamamoto, Yorihiro; Craggs, Lucinda; Baumann, Marc; Kalimo, Hannu; Kalaria, Raj N.

doi:10.1111/j.1365-2990.2010.01147.x

Cited by 121 publications

(101 citation statements)

References 169 publications

(224 reference statements)

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“…33 It is tempting to speculate that these findings may reflect stages of GOM development 33 or may relate to a postulated defective ubiquitin-dependent (trans)endocytosis of mutant Notch3. 16,39,50,51 The latter is a plausible scenario, implying the presence of Notch3 ECD in GOM. This remains controversial, however, as the detection of Notch3 ECD in GOM by immunoelectron microscopy on patient material was not confirmed by mass spectrometry analysis.…”

Section: Discussionmentioning

confidence: 99%

“…[13][14][15] Thus far, more than 180 mutations are known, nearly 60% of which cluster in exon 4. 3,[13][14][15][16] In vitro and in vivo studies have highlighted a role of Notch3 in artery maturation, responses to vascular injury or ischemia, and regulation of SMC proliferation and apoptosis. [17][18][19][20][21][22][23][24][25] How the various Notch3 mutations effectuate arteriopathy and CADASIL disease development remains enigmatic.…”

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confidence: 99%

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Notch3 Arg170Cys Knock-In Mice Display Pathologic and Clinical Features of the Neurovascular Disorder Cerebral Autosomal Dominant Arteriopathy With Subcortical Infarcts and Leukoencephalopathy

Wallays

Nuyens

Silasi‐Mansat

et al. 2011

ATVB

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Objective-Cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is an adult-onset neurovascular disorder caused by stereotyped mutations in the NOTCH3 receptor. Elucidation of its pathobiology is still incomplete and remains a challenge, in part because the available preclinical mouse models to date do not reproduce the full spectrum of CADASIL pathology and clinical disease. Methods and Results-Here, we report a novel knock-in mouse with Arg170Cys substitution in murine Notch3, corresponding to the prevalent Arg169Cys substitution in CADASIL. The Notch3 Arg170Cys mice displayed late-onset, dominant CADASIL arteriopathy with typical granular osmiophilic material deposition and developed brain histopathology including thrombosis, microbleeds, gliosis, and microinfarction. Furthermore, Notch3Arg170Cys mice experienced neurological symptoms with motor defects such as staggering gait and limb paresis. The main symptoms are migraine with aura, psychiatric disturbances, and recurrent subcortical ischemic strokes causing motor disabilities, cognitive decline, dementia, and premature death. 2,3 The accompanying arteriopathy is characterized by the progressive degeneration of arterial smooth muscle cells (SMCs), deposition of electron-dense granular osmiophilic material (GOM) within the basal lamina of the SMCs and pericytes, and accumulation of the Notch3 extracellular cleavage product at the SMC membrane. 2-7 Although the arteriopathy is systemic, 8 the symptoms are mostly neurological. Brain pathology involves microbleeds, loss of myelin or axons, fibrillar gliosis, and lacunar infarcts in the white and deep gray matter. 2,3,9 CADASIL is caused by mutations in the transmembrane receptor Notch3, which is predominantly expressed in adult arterial SMCs. 10 -13 Pathogenic mutations stereotypically affect the number of cysteine residues in the epidermal growth factor-like repeats of the extracellular domain (ECD). [13][14][15] Thus far, more than 180 mutations are known, nearly 60% of which cluster in exon 4. 3,[13][14][15][16] In vitro and in vivo studies have highlighted a role of Notch3 in artery maturation, responses to vascular injury or ischemia, and regulation of SMC proliferation and apoptosis. [17][18][19][20][21][22][23][24][25] How the various Notch3 mutations effectuate arteriopathy and CADASIL disease development remains enigmatic.Previous approaches to generating a model of CADASIL include knock-in mice carrying the counterpart Arg141Cys CADASIL mutation (Arg142Cys in mouse) in the endogenous Notch3 gene, which failed, however, to develop any phenotype at all. 26 On the other hand, transgenic overexpression in mice of human or rat Notch3 carrying archetypal Notch3 mutations (Arg90Cys human Notch3, 27-30 Cys428Ser human Notch3, 31 Arg169Cys rat Notch3, 32 Cys455Arg and Arg1031Cys human Notch3 33 ) met with more success, with all models displaying the CADASIL arteriopathy. However, Here, we report a novel mutant mouse carrying an Arg170Cys knock-in mutation in the...

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Notch3 Arg170Cys Knock-In Mice Display Pathologic and Clinical Features of the Neurovascular Disorder Cerebral Autosomal Dominant Arteriopathy With Subcortical Infarcts and Leukoencephalopathy

Wallays

Nuyens

Silasi‐Mansat

et al. 2011

ATVB

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“…It is interesting that the locus of the Notch -3 gene is near that of the Cacnl1a4 calcium channel gene, which carries the causal mutation of familial hemiplegic migraine and type II familial episodic ataxia (2,5). At the histological level, the characteristic that is considered specific for CADASIL-type arteriopathy is the presence, on electronic microscopy, of dense osmophilic granular material in contact with the smooth muscular cells of the arterioles (7). This material is observed in brain tissue, in nerves and also in the dermis.…”

Section: Discussionmentioning

confidence: 99%

Anesthetic Management and Postoperative Care of a Patient with CADASIL (Cerebral Arteriopathy, Autosomal Dominant, with Subcortical Infarcts and leukoencephalopathy) for Cesarean Section

Rasooli¹,

Moslemi²,

Tagavi³

2014

IJWHR

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Case descriptionWe describe the anesthetic management and postoperative care of a 36 years old pregnant woman with CADASIL disease who needed urgent cesarean section. According to her past medical history, she was already diagnosed as CADASIL syndrome 3 years ago. Her medical history included left hemi lateral paresis, accompanied by walking difficulties, urinary incontinence, psychiatric symptoms, apathy, diabetes mellitus, hypertension, and ovarian cyst. CADASIL diseases, was diagnosed after a hemi paretic attack when she was 32 years old. As a consequence of headache, was followed by neurologic symptoms. After admission to hospital, the clinical and neurological examination, MRI and CT-scan, and by genetic examinations, CADASIL disease was diagnosed. She got one dilatation and curettage due to a missed abortion pregnancy under sedation, 2 years ago at a primary care clinic. Now, her symptoms associated with CADASIL were intermittent headache and left hemi lateral paresis, and hypertension. She was taking methyldopa and aspirin (80 mg daily). Her diabetes was controlled by Insulin during pregnancy. She admitted to the Alzahra hospital due to hypertension one day ago. She received 5mg hydralazine and stopped aspirin. On preoperative evaluation, there were no abnormalities in laboratory tests and radiologic evaluations except slightly elevated U/A protein 1+. Her brain CT was checked two months ago revealed the confluent low densities at the subcortical and deep white matter of both cerebral hemispheres and several small old infarctions in both basal ganglia and thalami. But the neurologist who examined the patient after admission judged her still neurologically normal.Because of recent aspirin medication, we decided to conduct general anesthesia with informed consent. After premedication with ranitidine 50 mg and metoclopramide 10 mg IV, the patient was taken to the operating room. With standard monitoring (ECG, pulse oximetry, noninvasive blood pressure, and capnography) and preoxygenation, a rapid sequence induction with cricoid pressure using fentanyl, thiopental, and succinylcholine was carried out. For intubation used a cuffed 7.0 mm ETT. Neuromuscular block was achieved with atracurium, and anesthesia was maintained by controlled ventilation with an oxygen/N2O 50%/50% and isoflurane 1% mixture. With recommendations concerning the anaesthetic management of patients with CADASIL arteriopathy, we kept mean arterial blood pressure greater than 60 mm Hg and end-tidal carbon dioxide around 40 mm Hg so as to prevent any cerebral ischemic or vasospastic phenomenon. Patient's blood sugar within the perioperative was in the normal range. Moreover, the cerebral venous return was preserved by the patient received 8 ml/kg of ringer's solution in the left lateral position. The condition of neonate was assessed by apgar score at 1 st and 5 th after delivery who was 8 and 9 respectively. Mother received oxytocin 5 IU by continues infusion after delivery. Surgery and recovery were uneventful. The neurological examination ...

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“…Вероятно, наряду с собственно церебральным повреждением вслед-ствие инсульта и наличием неройденегеративных изме-нений, эти факторы делают мозг в большей степени под-верженным деменции. Не до конца выяснена и роль генетических факторов: отчетливых доказательств связи определенных генетич еских вариантов с развитием ког-нитивных нарушений не установлено, однако на него могут влиять нуклеотидные последовательности, связан-ные с развитием различных подтипов ишемического инсульта и изменений белого вещества вследствие пора-жения сосудов мелкого калибра [14,53]. Ряд биомаркеров, таких как маркеры воспаления (интерлейкин-6, C-реак-тивный белок), B-секретаза, наличие аллелей DD АПФ и аполипротеина E4, изучаются в качестве возможных пре-дикторов деменции и когнитивных нарушений [5].…”

Section: факторы риска развития постинсультных когнитивных нарушенийunclassified

Poststroke cognitive impairment and dementia

Сергеев¹,

Домашенко²,

Пирадов³

2016

Med. sov.

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В обзоре, подготовленном по данным последних публикаций ведущих европейских специалистов в области постинсультных когнитивных нарушений, приведены краткие сведения о распространенности, механизмах развития и факторах риска этих состояний, которые представляют собой серьезную проблему в период восстановления после инсульта. Описаны общие под-ходы к профилактике постинсультной деменции и возможности нейропротективной терапии у этой категории пациентов. Post-stroke cognitive impairment and dementia are one of the major causes of the disability and quality of life deterioration following cerebrovascular accident. In this review we cover current views on the prevalence, mechanisms and risk factors of post-stroke cognitive deficit, according to recent publications of leading European opinion leaders in this area. We also focus on the approaches to the pharmacological treatment and the role of neuroprotective agents.

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Review: Molecular genetics and pathology of hereditary small vessel diseases of the brain

Cited by 121 publications

References 169 publications

Notch3 Arg170Cys Knock-In Mice Display Pathologic and Clinical Features of the Neurovascular Disorder Cerebral Autosomal Dominant Arteriopathy With Subcortical Infarcts and Leukoencephalopathy

Notch3 Arg170Cys Knock-In Mice Display Pathologic and Clinical Features of the Neurovascular Disorder Cerebral Autosomal Dominant Arteriopathy With Subcortical Infarcts and Leukoencephalopathy

Anesthetic Management and Postoperative Care of a Patient with CADASIL (Cerebral Arteriopathy, Autosomal Dominant, with Subcortical Infarcts and leukoencephalopathy) for Cesarean Section

Poststroke cognitive impairment and dementia

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