Alterations in amyloid beta-protein and apolipoprotein E in cerebrospinal fluid after subarachnoid hemorrhage

BACKGROUND： The findings about the alterations in cerebrospinal fluid beta-amyloid protein （Aβ ） and apolipoprotein E （APOE） after subarachnoid hemorrhage indicate that they have significant correlation with prognosis of patients. OBJECTⅣE： To observe the alterations in cerebrospinal fluid Aβ and ApoE after subarachnoid hemorrhage （SAH）. DESIGN： Contrast observation. SETTING： Department of Neurosurgery, the First Hospital of Lanzhou University. PARTICIPANTS： A total of 25 SAH patients including 16 males and 9 females aged from 13 to 72 years were selected form Department of Neurosurgery, the First Affiliated Hospital of Lanzhou University from October 2003 to February 2004. The Hunt-Hess grade ranged from Ⅰ to Ⅳ, and patients admitted hospital in 24 hours after invasion, affirmed by the brain CT scan and lumbar vertebra puncture, no other severe complications and important organs＇ functional defect and severe infection, no hematological system disease. METHODS- All admitted patients were collected CSF by lumbar vertebra puncture in 24 hours. The cerebrospinal fluid （CSF） of control group came from the admitted 15 patients of our hospital that have no nervous system disease. Aβ content was detected by enzyme linked immunosorbent assay （ELISA）, the kit was provided by the Central Laboratory of the First Hospital of Lanzhou University; ApoE concentration was detected by monoclone enzyme linked immunosorbent assay （ELISA）, the kit was provided by the Immunotechnique Research Institute of the Fourth Military Medical University. S100B concentration was detected by enzyme linked immunosorbent assay double antibody sandwich method, the kit was provided by the Physiological Research Room of the Fourth Military Medical University. The data were indicated on Mean±SD and were analyzed by SPSS 10.0 statistical package. All data were handled through test of significance variance analysis, and groups were compared through independent sampler t test. The concentration was handled through Pearson correlation analysis between Aβ and ApoE. The relationship between Aβ, ApoE concentration with pathogenetic condition and prognosis of the patients was handled through Spearman ranking correlation analysis. MAIN OUTCOME MEASURES：① The concentration of ApoE, Aβ and S100B after SAH in contrast to the control group in CSF by different Hunt-Hess and Glasgow Outcome Scale （GOS） grades; ② The level of correlation between ApoE and Aβ ; ③Correlation between ApoE and Aβ in pathogenetic condition and prognosis of the patients. RESULTS： All 25 SAH patients and 15 controls were involved in the final analysis. ① The concentration of ApoE, Aβ and S100B in CSF： The concentration of ApoE decreased after SAH in contrast to the control group [（0.46±0.007）, （0.85±0.11） μg/L, P 〈 0.01], the concentration of ApoE decreased after SAH in contrast to the control group [（5.36± 1.19）, （8.41± 1.60） μg/L, P 〈 0.01], and the concentration of S100B increased after SAH in contrast to the control group [（18.60±7.31）, （6.56±1.02） pg/L, P 〈 0.01]. ② The concentration of ApoE, Aβ and S100B in CSF after SAH on different Hunt-Hess and GOS grades： The concentration of Aβ in Hunt-Hess Ⅰ -Ⅲ grade was higher than Hunt-Hess Ⅳ, Ⅴ grade [（6.63 ± 1.25）, （3.35± 1.02） μg/L, P 〈 0.01], and the concentration of ApoE in Hunt-Hess Ⅰ- Ⅲ grade was higher than Hunt-Hess Ⅳ, Ⅴ grade [（0.56±0.07）, （0.38±0.04） μg/L, P 〈 0.05], the concentration of S100B in Hunt-Hess Ⅰ - Ⅲ grade was lower than Hunt-Hess Ⅳ - Ⅴ grade [（16.32±5.58）, （22.85±8.10） pg/L, P 〈 0.01]; the concentration of Aβ in GOS Ⅰ - Ⅲ grade was lower than GOS Ⅳ, Ⅴ grade [（3.76± 1.04）, （5.89±1.20） μg/L, P 〈 0.01], and the concentration of ApoE in GOS Ⅰ - Ⅲ grade was lower than GOS Ⅳ, Ⅴ grade [（0.32±0.02）, （0.58±0.07） μg/L, P 〈 0.011, and the concentration of S100B in GOS Ⅰ - Ⅲ grade was higher than GOS Ⅳ, Ⅴ grade [（25.36±9.70）, （14.33±6.69） pg/L, P 〈 0.01].③ The results of Pearson correlation analysis and Spearman ranking correlation analysis： There was significantly positive correlation between CSF Aβ concentration and clinical outcome （r=0.65, P 〈 0.01）, and the decrease in CSF Aβ concentration correlated significant with that of ApoE （r =0.85, P 〈 0.01）. CONCLUSION： There is a significant decrease in both Aβ and ApoE in the CSF after SAH, and there is significant correlation between CSF Aβ and ApoE concentration with clinical outcome, the interactions between these proteins may have important effects on SAH, ApoE and Aβ as surrogate markers for the outcome of patients with SAH.

Investigation on apoptosis of neuronal cells induced by Amyloid beta-Protein

Objective: To construct a PC12 cell strain with neuronal differentiation, and observe the apoptosis and pro-liferation activity effects induced these cells by Amyloid beta-Protein (Aβ3-43). Methods: 1) PC12 cells in logarithmic growth phase were subcultured for 24 h. After the culture fluid was changed, the cells were treated with Rat-β-NGF and cultured for 9 days. 2) Neuronal differentiation of PC 12 cells in logarithmic growth phase were divided into four groups:control group (0), experimental group (1), experimental group (2) and experimental group (3). The concentrations of Aβ in the four groups were 0 μmol/L, 1.25 μmol/L, 2.5 μmol/L and 5 μmol/L, respectively. The cells were harvested at 24, 48 and 72 h later and stained with AnnexinV-FITC/PI after centrifugation and washing. Then flow cytometry was conducted to examine the apoptosis percentage. 3) NGF-induced PC12 cells were selected and Aβ with different concentrations was added. The final concentrations of Aβ were 0 μmol/L, 1.25 μmol/L, 2.5 μmol/L and 5 μmol/L, respectively. After the cells were incubated in an atmosphere of 5% CO2 at 37 ℃ in an incubator for 72 h, the OD values were examined. Results: 1)Neuronal differentiated PC12 cell lines were successfully established. 2) Flow cytometric examination indicated that Aβ(1.25, 2.5, and 5.0 μmol/L) could effectively induce apoptosis of neuronal-differented cells at the 24 h, 48 h and 72 h time points. 3) Aβ (0-5.00 μmol/L) had no obvious effect on proliferation or restraining of the neuronal differentiation of the PC 12 cells after a 72 h interacting process. Conclusion: This investigation revealed successful neuronal differentiation of the PC12 cell strain. The induction of apoptosis of the neurocytes by various concentrations of Aβ was observed and the in-fluence of Aβ on induced proliferation of PC 12 cells by Rat-β-NGF was revealed. This study may provide basis for future research on the molecular cure of AD and interdiction of AD evolution.

Current perspective on amyloid aggregation accelerating properties of the artificial butter flavoring,diacetyl

The amyloid—what peptide can resist its entropic bliss?Without kinetic barricades and chaperones,most peptides would simply tumble down that precipice.The amyloid-β(Aβ) peptides are understood to underlie the hallmark pathology of Alzheimer's disease(AD) and are considered one of the causative factors for neurodegeneration and cognitive impairment.AD affects critical connected structures within the brain that are responsible for memory,language,and social behavior.

Transmission of amyloid-βpathology in humans:a perspective on clinical evidence

Transmission of misfolded amyloid-β(Aβ)aggregates between human subjects:Protein misfolding disorders are a family of diseases characterized by the accumulation of misfolded protein aggregates.These proteinaceous structures,also known as amyloids,are key drivers of fatal neurodegenerative disorders such as prion diseases,Alzheimer’s disease(AD),Parkinson’s disease,and others.

Medin synergized with vascular amyloid-beta deposits accelerates cognitive decline in Alzheimer's disease:a potential biomarker

Brain vascular dysfunction in Alzheimer s disease(AD) pathogenesis has become increasingly clea r.Accumulating evidence shows that damaged vascular,including large or small vessels and even neurovascular unit,may accelerate the neuropathological process of AD via disrupting brain hypoperfusion,aberrant angiogenesis,and neuroinflammatory response,etc.Thus,vascular dysfunction makes a substantially contribution to the cognitive decline of AD patients.

Anti-amyloid antibodies in Alzheimer’s disease: what did clinical trials teach us?

Although many causes of Alzheimer’s disease(AD)may exist,both the original amyloid cascade and tau hypotheses posit that abnormal misfolding and accumulation of amyloid-β(Aβ)and tau protein is the central event causing the pathology.However,that conclusion could be only partly true,and there is conflicting evidence about the role of both proteins in AD,being able to precede and influence one another.Some researchers argue that these proteins are mere executors rather than primary causes of pathology.Therefore,there have been continuing refinements of both hypotheses,with alternative explanations proposed.Aβand tau proteins may be independently involved in specific neurotoxic pathways;yet there may be other crucial processes going on in early AD.Moreover,accumulating evidence suggests that Aβand tau act synergistically,rather than additively in disease onset(Jeremic et al.,2021,2023a).

Design and redesign journey of a drug for transthyretin amyloidosis

The misfolding and subsequent aggregation of proteins into amyloid fibrils underlie the onset of a variety of human disorders collectively known as amyloidosis.Transthyretin(TTR)is one of the>30 amyloidogenic proteins identified to date and is associated with a group of highly debilitating and life-threatening disorders called TTR amyloidosis(ATTR).ATTR comprises senile systemic amyloidosis,which is linked to wild-type(WT)TTR aggregation,and hereditary ATTR,a dominantly inherited disorder caused by the deposition of one of over 130 TTR genetic variants.Senile systemic amyloidosis is a prevalent age-related amyloidosis,affecting up to 25%of the population over 80 years of age,and is characterized by the build-up of TTR fibrils in the myocardium.Regarding hereditary ATTR,the clinical presentation is highly heterogeneous,primarily affecting the peripheral nervous system(familial amyloid polyneuropathy-FAP)or the heart(familial amyloid cardiomyopathy).In rare cases,aggregation develops in the central nervous system,giving rise to a phenotype known as familial leptomeningeal amyloidosis(Carroll et al.,2022).

Recurrent Transient Ischemic Attacks Revealing Cerebral Amyloid Angiopathy: A Comprehensive Case

This case report investigates the manifestation of cerebral amyloid angiopathy (CAA) through recurrent Transient Ischemic Attacks (TIAs) in an 82-year-old patient. Despite initial diagnostic complexities, cerebral angiography-MRI revealed features indicative of CAA. Symptomatic treatment resulted in improvement, but the patient later developed a fatal hematoma. The discussion navigates the intricate therapeutic landscape of repetitive TIAs in the elderly with cardiovascular risk factors, emphasizing the pivotal role of cerebral MRI and meticulous bleeding risk management. The conclusion stresses the importance of incorporating SWI sequences, specifically when suspecting a cardioembolic TIA, as a diagnostic measure to explore and exclude CAA in the differential diagnosis. This case report provides valuable insights into these challenges, highlighting the need to consider CAA in relevant cases.

Management of cerebral amyloid angiopathy and atrial fibrillation:We are still far from precision medicine

The use of anticoagulation therapy could prove to be controversial when trying to balance ischemic stroke and intracranial bleeding risks in patients with concurrent cerebral amyloid angiopathy(CAA)and atrial fibrillation(AF).In fact,CAA is an age-related cerebral vasculopathy that predisposes patients to intracerebral hemorrhage.Nevertheless,many AF patients require oral systemic dose-adjusted warfarin,direct oral anticoagulants(such as factor Xa inhibitors)or direct thrombin inhibitors to control often associated with cardioembolic stroke risk.The prevalence of both CAA and AF is expected to rise,due to the aging of the population.This clinical dilemma is becoming increasingly common.In patients with coexisting AF and CAA,the risks/benefits profile of anticoagulant therapy must be assessed for each patient individually due to the lack of a clear-cut consensus with regard to its risks in scientific literature.This review aims to provide an overview of the management of patients with concomitant AF and CAA and proposes the implementation of a risk-based decision-making algorithm.

The expanding amyloid family:Structure,stability,function,and pathogenesis

The hidden world of amyloid biology has suddenly snapped into atomic-level focus,revealing over 80 amyloid protein fibrils,both pathogenic and functional.Unlike globular proteins,amyloid proteins flatten and stack into unbranched fibrils.Stranger still,a single protein sequence can adopt wildly different two-dimensional conformations,yielding distinct fibril polymorphs.

Plasma amyloid-beta oligomer and phosphorylated tau:diagnostic tools for progressive Alzheimer's disease

Introduction:Spanning the three stages of the Alzheimer’s disease (AD) continuum,amyloid-beta(Aβ40and Aβ42) oligomers (AβO’s) and tau protein constitute a set of biomarkers ideally suited for the non-invasive monitoring of AD (Wolgin et al.,2022).AD progression is correlated with the presence of low molecular weight oligomers and not amyloid plaques.Moreover,low molecular weight AβO is present in the beginning and later stages of disease even when the plaque burden becomes prevalent.Furthermore.

Cannabidiol-Mediated Sequestration of Alzheimer’s Amyloid-β Peptides in ADDL Oligomers

Cannabidiol (CBD), one of the most studied phytocannabinoids, is non-psychotropic and can induce protective effects on the central nervous system against acute and chronic brain injury. Interestingly, CBD inhibits processes relating to amyloid beta (Aβ)-induced neurotoxicity in mouse models of Alzheimer’s disease, though the detailed molecular mechanism underlying the CBD neurotoxicity modulation is not fully understood. In this study, using atomic force microscopy, we find that CBD promotes the aggregation of Aβ peptides, enhancing the formation of Aβ oligomers, also known as Aβ-derived diffusible ligands (ADDLs). The CBD-mediated sequestration of Aβ monomers in soluble ADDLs could reduce neurotoxicity. This study highlights a possible role of CBD in modulating the formation of ADDL aggregates and provides insight into potentially neuroprotective properties of CBD in Alzheimer’s disease.

A pancreatic player in dementia:pathological role for islet amyloid polypeptide accumulation in the brain

Type 2 diabetes mellitus patients have a markedly higher risk of developing dementia.While multiple factors contribute to this predisposition,one of these involves the increased secretion of amylin,or islet amyloid polypeptide,that accompanies the pathophysiology of type 2 diabetes mellitus.Islet amyloid polypeptide accumulation has undoubtedly been implicated in various forms of dementia,including Alzheimer’s disease and vascular dementia,but the exact mechanisms underlying islet amyloid polypeptide’s causative role in dementia are unclear.In this review,we have summarized the literature supporting the various mechanisms by which islet amyloid polypeptide accumulation may cause neuronal damage,ultimately leading to the clinical symptoms of dementia.We discuss the evidence for islet amyloid polypeptide deposition in the brain,islet amyloid polypeptide interaction with other amyloids implicated in neurodegeneration,neuroinflammation caused by islet amyloid polypeptide deposition,vascular damage induced by islet amyloid polypeptide accumulation,and islet amyloid polypeptide-induced cytotoxicity.There are very few therapies approved for the treatment of dementia,and of these,clinical responses have been controversial at best.Therefore,investigating new,targetable pathways is vital for identifying novel therapeutic strategies for treating dementia.As such,we conclude this review by discussing islet amyloid polypeptide accumulation as a potential therapeutic target not only in treating type 2 diabetes mellitus but as a future target in treating or even preventing dementia associated with type 2 diabetes mellitus.

The tip of the iceberg?The underestimated potential of non-canonical beta-amyloids for Alzheimer's disease

Formation and deposition of amyloid-beta(Aβ) are considered one of the main drivers of Alzheimer's disease(AD). For more than 30 years, Aβ has challenged researchers through its complex physicochemical properties and multiple peptide processing steps that involve several proteases(Andreasson et al., 2007).

Cardiac amyloidosis: state-of-the-art review

Cardiac amyloidosis(CA)is caused by deposition of amyloid fibrils in the myocardium and has two main sub-types,transthyretin cardiac amyloidosis(ATTR)and immunoglobulin light chain cardiac amyloidosis(AL).ATTR is further dif-ferentiated into wild-type(wtATTR)and hereditary(hATTR),depending on the absence or presence of mutation in the trans-thyretin gene.The increased recognition of disease with the improvement in diagnostic armamentarium and serendipitous ad-vancements in the therapeutic landscape have changed the status of CA from being a rare and untreatable disease to being a not-so-rare and treatable disease.Both ATTR and AL have certain clinical aspects that can provide early clues for the disease.While electrocardiography followed by echocardiography and subsequently cardiac magnetic resonance can raise suspicion for CA,the definitive diagnosis of ATTR is non-invasively established by bone scintigraphy while that of AL always needs histological con-firmation.Severity of CA can be gauged by serum biomarker-based staging of both ATTR and AL.ATTR therapies work by silen-cing or stabilizing TTR or by degrading amyloid fibrils,while AL is managed with anti-plasma cell therapies and autologous stem cell transplant.

LL-37 and CsgC exemplify the crosstalk between anti-amyloid, antimicrobial, and anti-biofilm protein activities

Protein misfolding and aggregation into amyloid fibrils is the main pathological hallmark of neurodegenerative diseases,including Alzheimer’s,Parkinson’s,Huntington’s,and prion diseases(Chiti and Dobson,2017).These insoluble fibrillar deposits possess a common structure characterized by a cross-β-sheet conformation in which β-strands run transversely to the fiber axis and form an intermolecular network of hydrogen bonds.

Misfolded amyloid-βstrains and their potential roles in the clinical and pathological variability of Alzheimer’s disease

Potential causes for the clinical and pathological variability observed in Alzheimer’s disease(AD):AD is an age-related neurodegenerative disorder characterized by the impairment of cognitive functions such as memory,learning,and reasoning.These commonly described clinical symptoms are due to particular pathological changes in the brain,including inflammation,synaptic loss,and neuronal death.These changes are a consequence of the accumulation of abnormally folded amyloid-β(Aβ)and tau proteins in specific areas of the central nervous system.Considering the progressive aging of the world’s population,the number of people affected by AD is expected to substantially and consistently increase in the coming years.This positions AD as one of the main public health challenges in the near future.

Enhancing the compatibility of the amyloid-dye hybrid nanostructure for improved photo-biocatalysis

Artificial photosynthesis is significant for renewable energy generation,sustainable development,and environmental protection.Dye-protein hybrids are promising for developing photosynthesis mimics(e.g.,photo-biocatalysis),but their performances are far lower than the plant photosystems,partially because of the incompatibility between dye and the protein matrix that limits excited state electron transfer of the included dyes.Here,using ThT-insulin amyloid assembly as a model system,we proposed that increasing the dye-protein compatibility could lead to the improved photo-biocatalytic performance.A ThT derivative,ThTPD,was designed with the same electron acceptor but extended π-conjugated donor structure.When integrated into the insulin amyloid,the extended π-conjugated donor structure allowed increased binding affinity and energy with the amyloid matrix,thus better electron transport to the mediator to drive the photocatalytic reaction.Meanwhile,compared with ThT, ThTPD exhibited improved light absorption and longer excited state lifetime.The photo-biocatalytic performance of ThTPD-insulin amyloid was greatly improved as compared with that of ThT in reduced nicotinamide adenine dinucleotide(NADH) regeneration.When integrating with NADH-dependent L-glutamate reductase,the efficiency of the ThTPD-insulin amyloid hybrid was 2.8-fold higher than that of ThT in glutamate generation,showing promising feature in biocatalytic solar-to-chemical conversion.

Regional differences in islet amyloid deposition in the residual pancreas with new-onset diabetes secondary to pancreatic ductal adenocarcinoma

BACKGROUND Islet amyloid deposition and reducedβ-cell mass are pathological hallmarks in type 2 diabetes mellitus subjects.To date,the pathological features of the islets in diabetes secondary to pancreatic ductal adenocarcinoma(PDAC)have not been specifically addressed.AIM To provide further insight into the relationship between islet amyloid deposition of the residual pancreas in PDAC patients and to explore whether regional differences(proximal vs distal residual pancreas)are associated with islet amyloid deposition.METHODS We retrospectively collected clinical information and pancreatic tissue removed from tumors of 45 PDAC patients,including 14 patients with normal glucose tolerance(NGT),16 patients with prediabetes and 15 new-onset diabetes(NOD)patients diagnosed before surgery by an oral glucose tolerance test at West China Hospital from July 2017 to June 2020.Pancreatic volume was calculated by multiplying the estimated area of pancreatic tissue on each image slice by the interval between slices based on abdominal computer tomography scans.Several sections of paraffin-embedded pancreas specimens from both the proximal and/or distal regions remote from the tumor were stained as follows:(1)Hematoxylin and eosin for general histological appearance;(2)hematoxylin and insulin for the determination of fractionalβ-cell area(immunohistochemistry);and(3)quadruple insulin,glucagon,thioflavin T and DAPI staining for the determination ofβ-cell area,α-cell area and amyloid deposits.RESULTS Screening for pancreatic histologic features revealed that duct obstruction with islet amyloid deposition,fibrosis and marked acinar atrophy were robust in the distal pancreatic regions but much less robust in the proximal regions,especially in the prediabetes and NOD groups.Consistent with this finding,the remnant pancreatic volume was markedly decreased in the NOD group by nearly one-half compared with that in the NGT group(37.35±12.16 cm^(3) vs 69.79±18.17 cm^(3),P<0.001).As expected,islets that stained positive for amyloid(islet amyloid density)were found in the majority of PDAC cases.The proportion of amyloid/islet area(severity of amyloid deposition)was significantly higher in both prediabetes and NOD patients than in NGT patients(P=0.002;P<0.0001,respectively).We further examined the regional differences in islet amyloid deposits.Islet amyloid deposit density was robustly increased by approximately 8-fold in the distal regions compared with that in the proximal regions in the prediabetes and NOD groups(3.98%±3.39%vs 0.50%±0.72%,P=0.01;12.03%vs 1.51%,P=0.001,respectively).CONCLUSION In conclusion,these findings suggest that robust alterations of the distal pancreas due to tumors can disturb islet function and structure with islet amyloid formation,which may be associated with the pathogenesis of NOD secondary to PDAC.

Concentration-Dependent Effect of Nickel Ions on Amyloid Fibril Formation Kinetics of Hen Egg White Lysozyme:a Raman Spectroscopy Study

Nickel,an important transi-tion metal element,is one of the trace elements for hu-man body and has a crucial impact on life and health.Some evidences show the excess exposure to metal ions might be associated with neurological diseases.Herein,we applied Raman spectroscopy to study the Ni(II)ion effect on kinetics of amyloid fibrillation of hen egg white lysozyme(HEWL)in thermal and acidic conditions.Using the well-known Raman indicators for protein tertiary and secondary structures,we monitored and analyzed the concentration effect of Ni(II)ions on the unfolding of tertiary structures and the transformation of sec-ondary structures.The experimental evidence validates the accelerator role of the metal ion in the kinetics.Notably,the additional analysis of the amide I band profile,combined with thioflavin-T fluorescence assays,clearly indicates the inhibitory effect of Ni(II)ions on the formation of amyloid fibrils with organizedβ-sheets structures.Instead,a more significant promotion influence is affirmed on the assembly into other aggregates with disordered struc-tures.The present results provide rich information about the specific metal-mediated protein fibrillation.