Humoral and T-Cell Immune Response After 3 Doses of Messenger RNA Severe Acute Respiratory Syndrome Coronavirus 2 Vaccines in Fragile Patients: The Italian VAX4FRAIL Study.

BACKGROUND: Patients with solid or hematological tumors or neurological and immune-inflammatory disorders are potentially fragile subjects at increased risk of experiencing severe coronavirus disease 2019 and an inadequate response to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) vaccination. METHODS: We designed a prospective Italian multicenter study to assess humoral and T-cell responses to SARS-CoV-2 vaccination in patients (n = 378) with solid tumors (ST), hematological malignancies (HM), neurological disorders (ND), and immunorheumatological diseases (ID). A group of healthy controls was also included. We analyzed the immunogenicity of the primary vaccination schedule and booster dose. RESULTS: The overall seroconversion rate in patients after 2 doses was 62.1%. Significantly lower rates were observed in HM (52.4%) and ID (51.9%) than in ST (95.6%) and ND (70.7%); a lower median antibody level was detected in HM and ID versus ST and ND (P < .0001). Similar rates of patients with a positive SARS-CoV-2 T-cell response were found in all disease groups, with a higher level observed in ND. The booster dose improved the humoral response in all disease groups, although to a lesser extent in HM patients, whereas the T-cell response increased similarly in all groups. In the multivariable logistic model, independent predictors of seroconversion were disease subgroup, treatment type, and age. Ongoing treatment known to affect the immune system was associated with the worst humoral response to vaccination (P < .0001) but had no effect on T-cell responses. CONCLUSIONS: Immunosuppressive treatment more than disease type per se is a risk factor for a low humoral response after vaccination. The booster dose can improve both humoral and T-cell responses.

P301L tau mutation leads to alterations of cell cycle, DNA damage response and apoptosis: Evidence for a role of tau in cancer.

Tau is a microtubule-associated protein, coded by the MAPT gene, which regulates microtubule (MT) polymerization and dynamics. Due to its key role in neurons, it is a major player in neurodegenerative diseases known as "tauopathies". Since tau has emerged as a multitasking protein with a role in genome stability, it may act both in neurodegeneration and cancer. After demonstrating that tau can be considered as a risk factor for cancer, here we explored the mechanisms linking mutated tau to dysregulation of cancer-relevant processes, by employing lymphoblastoid cell lines (LCL) from patients affected by genetic tauopathy carrying the MAPT P301L mutation and healthy controls (wild-type, wt). In mutated LCL, we found reduced sensitivity to MT perturbation, along with decreased G2/M accumulation and cyclin B1 levels. Furthermore, mutated LCL displayed lower levels of phospho-Chk1 and phospho-Chk2 following hydrogen peroxide-induced oxidative stress, indicating a poorly effective DNA damage checkpoint, as well as reduced basal levels of p53. Such cells also exhibited lower levels of Bax and cleaved caspase-3, and increased levels of Cdc25A, upon oxidative stress, accounting for diminished apoptosis. Overall, these findings point to tau as a key player in biological pathways relevant for cancer, as evidenced by the differential response of mutated and wt cells to MT and DNA perturbation. The modulation of p53 is intriguing given its function as guardian of the genome.

COVID-19 Vaccination in Fragile Patients: Current Evidence and an Harmonized Transdisease Trial.

Patients diagnosed with malignancy, neurological and immunological disorders, i.e., fragile patients, have been excluded from COVID-19 vaccine trials. However, this population may present immune response abnormalities, and relative reduced vaccine responsiveness. Here we review the limited current evidence on the immune responses to vaccination of patients with different underlying diseases. To address open questions we present the VAX4FRAIL study aimed at assessing immune responses to vaccination in a large transdisease cohort of patients with cancer, neurological and rheumatological diseases.

Tau Mutations Serve as a Novel Risk Factor for Cancer.

In addition to its well-recognized role in neurodegeneration, tau participates in maintenance of genome stability and chromosome integrity. In particular, peripheral cells from patients affected by frontotemporal lobar degeneration carrying a mutation in tau gene (genetic tauopathies), as well as cells from animal models, show chromosome numerical and structural aberrations, chromatin anomalies, and a propensity toward abnormal recombination. As genome instability is tightly linked to cancer development, we hypothesized that mutated tau may be a susceptibility factor for cancer. Here we conducted a retrospective cohort study comparing cancer incidence in families affected by genetic tauopathies to control families. In addition, we carried out a bioinformatics analysis to highlight pathways associated with the tau protein interactome. We report that the risk of developing cancer is significantly higher in families affected by genetic tauopathies, and a high proportion of tau protein interactors are involved in cellular processes particularly relevant to cancer. These findings disclose a novel role of tau as a risk factor for cancer, providing new insights in the various pathologic roles of mutated tau.Significance: This study reveals a novel role for tau as a risk factor for cancer, providing new insights beyond its role in neurodegeneration. Cancer Res; 78(13); 3731-9. ©2018 AACR.

Molecular subtypes of Alzheimer's disease.

Protein misfolding and aggregation is a central feature of several neurodegenerative disorders including Alzheimer's disease (AD), in which assemblies of amyloid ß (Aß) peptides accumulate in the brain in the form of parenchymal and/or vascular amyloid. A widely accepted concept is that AD is characterized by distinct clinical and neuropathological phenotypes. Recent studies revealed that Aß assemblies might have structural differences among AD brains and that such pleomorphic assemblies can correlate with distinct disease phenotypes. We found that in both sporadic and inherited forms of AD, amyloid aggregates differ in the biochemical composition of Aß species. These differences affect the physicochemical properties of Aß assemblies including aggregation kinetics, resistance to degradation by proteases and seeding ability. Aß-amyloidosis can be induced and propagated in animal models by inoculation of brain extracts containing aggregated Aß. We found that brain homogenates from AD patients with different molecular profiles of Aß are able to induce distinct patterns of Aß-amyloidosis when injected into mice. Overall these data suggest that the assembly of mixtures of Aß peptides into different Aß seeds leads to the formation of distinct subtypes of amyloid having distinctive physicochemical and biological properties which result in the generation of distinct AD molecular subgroups.

α-Synuclein Amyloids Hijack Prion Protein to Gain Cell Entry, Facilitate Cell-to-Cell Spreading and Block Prion Replication.

The precise molecular mechanism of how misfolded α-synuclein (α-Syn) accumulates and spreads in synucleinopathies is still unknown. Here, we show the role of the cellular prion protein (PrPC) in mediating the uptake and the spread of recombinant α-Syn amyloids. The in vitro data revealed that the presence of PrPC fosters the higher uptake of α-Syn amyloid fibrils, which was also confirmed in vivo in wild type (Prnp +/+) compared to PrP knock-out (Prnp -/-) mice. Additionally, the presence of α-Syn amyloids blocked the replication of scrapie prions (PrPSc) in vitro and ex vivo, indicating a link between the two proteins. Indeed, whilst PrPC is mediating the internalization of α-Syn amyloids, PrPSc is not able to replicate in their presence. This observation has pathological relevance, since several reported case studies show that the accumulation of α-Syn amyloid deposits in Creutzfeldt-Jakob disease patients is accompanied by a longer disease course.

Pathogenic Aß A2V versus protective Aß A2T mutation: Early stage aggregation and membrane interaction.

We investigated the effects of punctual A-to-V and A-to-T mutations in the amyloid precursor protein APP, corresponding to position 2 of Aß1-42. Those mutations had opposite effects on the onset and progression of Alzheimer disease, the former inducing early AD pathology and the latter protecting against the onset of the disease. We applied Static and Dynamic Light Scattering and Circular Dichroism, to study the different mutants in the early stages of the aggregation process, essential for the disease. Comparative results showed that the aggregation pathways differ in the kinetics and extent of the process, in the size of the aggregates and in the evolution of the secondary structure, resulting in fibrils of different morphology, as seen by AFM. Mutated peptides had comparable toxic effects on N2a cells. Moreover, as assessed by X-ray scattering, all of them displayed disordering effects on the internal structure of mixed phospholipids-gangliosides model membranes.

Normal Pressure Hydrocephalus and Parkinsonism: Preliminary Data on Neurosurgical and Neurological Treatment.

OBJECTIVE: Idiopathic normal pressure hydrocephalus (iNPH) may present, besides the classic triad of symptoms, with extrapyramidal parkinsonianlike movement disorders. We present a randomized prospective study comparing adjustable ventriculoperitoneal (VP) shunt insertion plus dopamine oral therapy (group A) versus VP shunt alone (group B) in patients affected by iNPH associated with parkinsonism. METHODS: A detailed screening process included neurologic, neurosurgical, and neuropsychological evaluations, followed by a cerebrospinal fluid tap test and resistance outflow measurement. Outcome was evaluated through the Japanese NPH Grading Scale-Revised (JNPHGSR) and the motor (third) section of the Unified Parkinson's Disease Rating Scale, Motor Section (UPDRS-m). Friedman analysis of variance with a Wilcoxon post hoc test was used to evaluate the difference in JNPHGSR and UPDRS-m scores between pretreatment and follow-up (12 months) in the 2 groups, and a Kruskal-Wallis statistic and post hoc Mann-Whitney test were used to compare the change in JNPHGSR and UPDRS-m scores between the 2 groups. RESULTS: Thirty-two of 54 (59%) patients (mean age, 73.2 years) screened in 36 months met the inclusion criteria, but only 30 were enrolled (2 refused surgery) (15 in each group). Preoperative (123)I-ioflupane-cerebral single-photon emission computed tomography (DaTSCAN) revealed striatal dopaminergic deficit in 14/30 patients (46.5%). At the final 12 months follow-up, both groups improved JNPHGSR and UPRDS-m scores. The UPDRS-m score improvement was significant in both groups, but greater in group A (P = 0.003); JNPHGSR score improvement was similar in the 2 groups. CONCLUSIONS: iNPH associated with parkinsonism may be a frequent finding. In these cases, patients may benefit from VP shunt plus dopamine oral therapy.

Tackling amyloidogenesis in Alzheimer's disease with A2V variants of Amyloid-ß.

We developed a novel therapeutic strategy for Alzheimer's disease (AD) exploiting the properties of a natural variant of Amyloid-ß (Aß) carrying the A2V substitution, which protects heterozygous carriers from AD by its ability to interact with wild-type Aß, hindering conformational changes and assembly thereof. As prototypic compound we designed a six-mer mutated peptide (Aß1-6A2V), linked to the HIV-related TAT protein, which is widely used for brain delivery and cell membrane penetration of drugs. The resulting molecule [Aß1-6A2VTAT(D)] revealed strong anti-amyloidogenic effects in vitro and protected human neuroblastoma cells from Aß toxicity. Preclinical studies in AD mouse models showed that short-term treatment with Aß1-6A2VTAT(D) inhibits Aß aggregation and cerebral amyloid deposition, but a long treatment schedule unexpectedly increases amyloid burden, although preventing cognitive deterioration. Our data support the view that the AßA2V-based strategy can be successfully used for the development of treatments for AD, as suggested by the natural protection against the disease in human A2V heterozygous carriers. The undesirable outcome of the prolonged treatment with Aß1-6A2VTAT(D) was likely due to the TAT intrinsic attitude to increase Aß production, avidly bind amyloid and boost its seeding activity, warning against the use of the TAT carrier in the design of AD therapeutics.

Measles Inclusion-Body Encephalitis: Neuronal Phosphorylated Tau Protein is Present in the Biopsy but not in the Autoptic Specimens of the Same Patient.

Tauopathies are sporadic or familial neurodegenerative diseases characterized by the accumulation of phosphorylated tau in neurons and glial cells and include encephalitis related to measles virus such as subacute sclerosing panencephalitis. We describe a 45-year-old woman, with a history of lymphoma treated with immunosuppressant therapy who underwent an open biopsy of the right frontal cortex for a suspect of encephalitis, and died 4 days later. The neuropathological assessment on the bioptic sample revealed edema, severe gliosis and microglial activation, with lymphomonocytic perivascular cuffing and neurons containing both nuclear and cytoplasmic eosinofilic inclusions that ultrastructurally appeared as tubular and curvilinear non-membrane-bound 12-18 nm structures, leading to the diagnosis of measles inclusion-bodies encephalitis. The biopsy specimen showed several cortical neurons with intense perikaryal immunoreactivity for anti-tau antibodies recognizing phosphorylated epitopes while on autoptic specimens no phosphorylated tau immunoreactivity was detected. Our findings suggest that in specific conditions biopsy-derived human tau may be phosphorylated at sites that may result not phosphorylated in autopsy-derived specimens, most likely caused by post-mortem dephosphorylation.

Synthetic prions with novel strain-specified properties.

Prions are infectious proteins that possess multiple self-propagating structures. The information for strains and structural specific barriers appears to be contained exclusively in the folding of the pathological isoform, PrP(Sc). Many recent studies determined that de novo prion strains could be generated in vitro from the structural conversion of recombinant (rec) prion protein (PrP) into amyloidal structures. Our aim was to elucidate the conformational diversity of pathological recPrP amyloids and their biological activities, as well as to gain novel insights in characterizing molecular events involved in mammalian prion conversion and propagation. To this end we generated infectious materials that possess different conformational structures. Our methodology for the prion conversion of recPrP required only purified rec full-length mouse (Mo) PrP and common chemicals. Neither infected brain extracts nor amplified PrP(Sc) were used. Following two different in vitro protocols recMoPrP converted to amyloid fibrils without any seeding factor. Mouse hypothalamic GT1 and neuroblastoma N2a cell lines were infected with these amyloid preparations as fast screening methodology to characterize the infectious materials. Remarkably, a large number of amyloid preparations were able to induce the conformational change of endogenous PrPC to harbor several distinctive proteinase-resistant PrP forms. One such preparation was characterized in vivo habouring a synthetic prion with novel strain specified neuropathological and biochemical properties.

Prodromal Alzheimer's disease presenting as cerebral amyloid angiopathy-related inflammation with spontaneous amyloid-related imaging abnormalities and high cerebrospinal fluid anti-Aß autoantibodies.

Cerebral amyloid angiopathy-related inflammation (CAA-ri), a rare form of vasculitis associated with amyloid-ß (Aß) deposition in vessel walls, has been proposed as a spontaneous human model of the amyloid-related imaging abnormalities (ARIA) occurring after anti-Aß immunotherapy for the treatment of Alzheimer's disease (AD). We describe a case of a patient with biopsy-proven CAA-ri and prodromal AD, confirmed by means of neuropsychological examination after 20 months follow-up, presenting with ARIA and high levels of cerebrospinal fluid anti-Aß autoantibodies. This case further supports the analogies between the inflammatory response driven by anti-Aß immunotherapy and that spontaneously occurring in CAA-ri.

Defined α-synuclein prion-like molecular assemblies spreading in cell culture.

BACKGROUND: α-Synuclein (α-syn) plays a central role in the pathogenesis of synucleinopathies, a group of neurodegenerative disorders that includes Parkinson disease, dementia with Lewy bodies and multiple system atrophy. Several findings from cell culture and mouse experiments suggest intercellular α-syn transfer. RESULTS: Through a methodology used to obtain synthetic mammalian prions, we tested whether recombinant human α-syn amyloids can promote prion-like accumulation in neuronal cell lines in vitro. A single exposure to amyloid fibrils of human α-syn was sufficient to induce aggregation of endogenous α-syn in human neuroblastoma SH-SY5Y cells. Remarkably, endogenous wild-type α-syn was sufficient for the formation of these aggregates, and overexpression of the protein was not required. CONCLUSIONS: Our results provide compelling evidence that endogenous α-syn can accumulate in cell culture after a single exposure to exogenous α-syn short amyloid fibrils. Importantly, using α-syn short amyloid fibrils as seed, endogenous α-syn aggregates and accumulates over several passages in cell culture, providing an excellent tool for potential therapeutic screening of pathogenic α-syn aggregates.

Recurrent generalized seizures, visual loss, and palinopsia as phenotypic features of neuronal ceroid lipofuscinosis due to progranulin gene mutation.

We detail the phenotype of a novel form of neuronal ceroid lipofuscinosis due to a homozygous progranulin gene mutation (c.813_816del; CLN11 MIM #614706). The symptoms appeared in two young adult siblings, and included progressive retinopathy, recurrent generalized seizures, moderate ataxia, and subtle cognitive dysfunction. Long-lasting episodes of palinopsia were a recurring symptom and associated with polyphasic visual-evoked potential waveform that suggested hyperexcitability of the occipital cortex. Electroencephalography showed rare spike-wave paroxysms, and magnetic resonance imaging revealed selective cerebellar atrophy. Skin biopsy revealed fingerprint storage and the absence of progranulin protein. Electron microscopy of peripheral blood leukocytes showed fingerprint profiles in 1/100 lymphocytes. These findings define a novel phenotype and provide clues for better understanding of progranulin function. A PowerPoint slide summarizing this article is available for download in the Supporting Information section here.

Therapy in prion diseases.

In the last two decades, knowledge of the neurobiology of prion diseases or transmissible spongiform encephalopathies (TSE) has significantly advanced, but a successful therapy to stop or delay the progression of these disorders remains one of the most challenging goals of biomedical research. Several obstacles to this achievement are in common with other neurodegenerative disorders: difficulties to move from experimental level to clinical stage; appropriate timing of intervention; correct set up of clinical trial. Also in terms of molecular bases of disease, TSE and the other neurodegenerative disorders associated with protein misfolding such as Alzheimer, Parkinson and Huntington diseases, share a central pathogenic role of soluble small aggregates, named oligomers, considered the culprit of neuronal dysfunction: accordingly, these disorders could by termed oligomeropathies. However, the rapid progression of TSE, together with their clinical and molecular heterogeneity, make the therapeutic approach particularly problematic. The main target of the antiprion strategy has been the pathological form of the cellular prion protein (PrP(C)) termed PrP(Sc), invariably associated with the diseases. Several compounds have been found to affect PrP(Sc) formation or enhance its clearance in in vitro models, and prolong survival in experimental animals. However, few of them such as quinacrine and pentosan polysulfate have reached the clinical evaluation; more recently, we have conducted a clinical trial with doxycycline in patients with Creutzfeldt-Jakob disease without satisfactory results. In experimental conditions, active and passive immunization with antibodies against PrP and mucosal vaccination have shown to protect from peripheral infection. Other studies have proposed new potentially effective molecules targeting PrP oligomers. Furthermore, the possibility to interfere with PrP(C) to PrP(Sc) conversion by an active control of PrP(C) is another interesting approach emerging from experimental studies. However, in common with the other oligomeropathies, early diagnosis allowing to treat at risk population in a preclinical stage represent the more realistic perspective for efficient TSE therapy.

Hereditary and sporadic beta-amyloidoses.

Cerebral amyloidoses are chronic, progressive neurodegenerative diseases that are caused by the aggregation and deposition of misfolded proteins in the central nervous system, and lead to cognitive deficits, stroke, and focal neurological dysfunction including cerebellar and extrapyramidal signs. Among them, beta-amyloidoses are a heterogenous set of conditions characterised by the deposition of beta-amyloid protein in brain parenchyma and/or vessel walls that lead to the development of two main clinico-pathological entities: Alzheimer's disease and cerebral amyloid angiopathy, which may be sporadic or familial, and may also co-exist in the same patient. The aim of this review is to describe the most important differences in the pathways leading to parenchymal and cerebrovascular beta-amyloidoses, and the main clinical, neuropathological and biochemical characteristics of the two conditions. It also discusses the phenotypes associated with a series of familial and sporadic beta-amyloidoses in more detail in order to highlight the clinical and neuropathological features that may help to distinguish the different forms of disease.

A new face for old antibiotics: tetracyclines in treatment of amyloidoses.

The use of tetracyclines has declined because of the appearance of resistant bacterial strains. However, the indications of nonantimicrobial activities of these drugs have considerably raised interest and triggered clinical trials for a number of different pathologies. About 10 years ago we first reported that tetracyclines inhibited the aggregation of prion protein fragments and Alzheimer's ß peptides, destabilizing their aggregates and promoting their degradation by proteases. On the basis of these observations, the antiamyloidogenic effects of tetracyclines on a variety of amyloidogenic proteins were studied and confirmed by independent research groups. In this review we comment on the data available on their antiamyloidogenic activity in preclinical and clinical studies. We also put forward that the beneficial effects of these drugs are a result of a peculiar pleiotropic action, comprising their interaction with oligomers and disruption of fibrils, as well as their antioxidant, anti-inflammatory, antiapoptotic, and matrix metalloproteinase inhibitory activities.

APP mutations in the Aß coding region are associated with abundant cerebral deposition of Aß38.

Aß is the main component of amyloid deposits in Alzheimer disease (AD) and its aggregation into oligomers, protofibrils and fibrils is considered a seminal event in the pathogenesis of AD. Aß with C-terminus at residue 42 is the most abundant species in parenchymal deposits, whereas Aß with C-terminus at residue 40 predominates in the amyloid of the walls of large vessels. Aß peptides with other C-termini have not yet been thoroughly investigated. We analysed Aß38 in the brains of patients with Aß deposition linked to sporadic and familial AD, hereditary cerebral haemorrhage with amyloidosis, or Down syndrome. Immunohistochemistry, confocal microscopy, immunoelectron microscopy, immunoprecipitation and the electrophoresis separation of low molecular weight aggregates revealed that Aß38 accumulates consistently in the brains of patients carrying APP mutations in the Aß coding region, but was not detected in the patients with APP mutations outside the Aß domain, in the patients with presenilin mutations or in subjects with Down syndrome. In the patients with sporadic AD, Aß38 was absent in the senile plaques, but it was detected only in the vessel walls of a small subset of patients with severe cerebral amyloid angiopathy. Our results suggest that APP mutations in the Aß coding region favour Aß38 accumulation in the brain and that the molecular mechanisms of Aß deposition in these patients may be different from those active in patients with familial AD associated with other genetic defects and sporadic AD.