Distinct cerebrospinal fluid amyloid-beta peptide signatures in cognitive decline associated with Alzheimer's disease and schizophrenia.

Mild alterations in cognitive function are present in normal aging and severe cognitive alterations are a hallmark of Alzheimer's disease (AD). Cognitive deficits are prevalent in patients with schizophrenia (SCZ) and worsen with old age. We recently reported that elderly SCZ patients show reduced levels of amyloid-beta (Aß)1-42 in cerebrospinal fluid (CSF). To further clarify the role of Aß in cognitive decline, we analyzed the whole panel of CSF Aß isoforms in elderly SCZ patients as well as in sporadic AD using SELDI TOF MS. The immunoproteomic study revealed, in all analyzed CSF samples, the presence of 15 different Aß peptides. In CSF from SCZ, we detected an overall strong reduction of almost all Aß species while in sporadic AD Aß1-42 was the only peptide reduced. A significant independent association between Aß1-40 levels and global cognition was found in SCZ. In addition, in SCZ patients, duration of therapy was positively associated with soluble amyloid precursor protein alpha levels, the total amount of CSF Aß and the most abundant Aß1-40 isoform. These data suggests a dysmetabolism of amyloid precursor protein in older SCZ patients. Thus, the quite comparable reduction of CSF Aß1-42 in AD and in elderly SCZ patients reflects different pathophysiological dynamics in ageing brain.

Optimal plasma progranulin cutoff value for predicting null progranulin mutations in neurodegenerative diseases: a multicenter Italian study.

BACKGROUND: Recently, attention was drawn to a role for progranulin in the central nervous system with the identification of mutations in the progranulin gene (GRN) as an important cause of frontotemporal lobar degeneration. GRN mutations are associated with a strong reduction of circulating progranulin and widely variable clinical phenotypes: thus, the dosage of plasma progranulin is a useful tool for a quick and inexpensive large-scale screening of carriers of GRN mutations. OBJECTIVE: To establish the best cutoff threshold for normal versus abnormal levels of plasma progranulin. METHODS: 309 cognitively healthy controls (25-87 years of age), 72 affected and unaffected GRN+ null mutation carriers (24-86 years of age), 3 affected GRN missense mutation carriers, 342 patients with neurodegenerative diseases and 293 subjects with mild cognitive impairment were enrolled at the Memory Clinic, IRCCS S. Giovanni di Dio-Fatebenefratelli, Brescia, Italy, and at the Alzheimer Unit, Ospedale Maggiore Policlinico and IRCCS Istituto Neurologico C. Besta, Milan, Italy. Plasma progranulin levels were measured using an ELISA kit (AdipoGen Inc., Seoul, Korea). RESULTS: Plasma progranulin did not correlate with age, gender or body mass index. We established a new plasma progranulin protein cutoff level of 61.55 ng/ml that identifies, with a specificity of 99.6% and a sensitivity of 95.8%, null mutation carriers among subjects attending to a memory clinic. Affected and unaffected GRN null mutation carriers did not differ in terms of circulating progranulin protein (p = 0.686). A significant disease anticipation was observed in GRN+ subjects with the lowest progranulin levels. CONCLUSION: We propose a new plasma progranulin protein cutoff level useful for clinical practice.

Loss of exosomes in progranulin-associated frontotemporal dementia.

Many cells of the nervous system have been shown to release exosomes, a subclass of secreted vesicles of endosomal origin capable of transferring biomolecules among cells: this transfer modality represents a novel physiological form of intercellular communication between neural cells. Herein, we demonstrated that progranulin (PGRN), a protein targeted to the classical secretory pathway, is also secreted in association with exosomes by human primary fibroblasts. Moreover, we demonstrated that null mutations in the progranulin gene (GRN), a major cause of frontotemporal dementia, strongly reduce the number of released exosomes and alter their composition. In vitro GRN silencing in SHSY-5Y cells confirmed a role of PGRN in the control of exosome release. It is believed that depletion of PGRN in the brain might cause neurodegeneration in GRN-associated frontotemporal dementia. We demonstrated that, along with shortage of the circulating PGRN, GRN null mutations alter intercellular communication. Thus, a better understanding of the role played by exosomes in GRN-associated neurodegeneration is crucial for the development of novel therapies for these diseases.

Secretory leukocyte protease inhibitor protein regulates the penetrance of frontotemporal lobar degeneration in progranulin mutation carriers.

The discovery that mutations in the gene encoding for progranulin (GRN) cause frontotemporal lobar degeneration (FTLD) and other neurodegenerative diseases leading to dementia has brought renewed interest in progranulin and its functions in the central nervous system. Full length progranulin is preserved from cleavage by secretory leukocyte protease inhibitor (SLPI), one of the smallest serine protease inhibitor circulating in plasma. Herein, we investigated the relationship between circulating SLPI and progranulin in affected and unaffected subjects belonging to 26 Italian pedigrees carrying GRN null mutations. In GRN null mutation carriers, we demonstrated: i) an increase of circulating SLPI levels in affected subjects; ii) an age-related upregulation of the serine-protease inhibitor in response to lifetime progranulin shortage; and iii) a delay in the age of onset in subjects with the highest SLPI protein levels. The study of SLPI and its relation to progranulin suggests the existence of unexpected molecular players in progranulin-associated neurodegeneration.

C9ORF72 hexanucleotide repeat number in frontotemporal lobar degeneration: a genotype-phenotype correlation study.

Expansion of a hexanucleotide repeat in the C9ORF72 gene has been identified as the most common pathogenic mutation in families with autosomal dominant frontotemporal lobar degeneration (FTLD) and amyotrophic lateral sclerosis. Herein we investigated frequency and penetrance of the C9ORF72 hexanucleotide repeat pathological expansion in a large cohort of familial and sporadic FTLD and related disorders (FTLD and related disorders, n = 388; Controls, n = 201). Moreover, we weighed the impact of C9ORF72 genotype on clinical phenotype taking into account the hexanucleotide repeat units number as a possible disease modifier. In our cohort, the C9ORF72 pathological expansion: (i) showed a prevalence of 7.5%; (ii) showed a full penetrance by the age of 80; (iii) was rarely found in sporadic patients; (iv) was solely associated with FTLD; (v) was mainly associated with bvFTD clinical subtype; and (vi) was associated with earlier age of onset in the youngest generation compared with the previous generation within a pedigree. Interestingly, intermediate C9ORF72 expansion had a risk effect in familial/sporadic FTLD. Eventually, the C9ORF72 repeat units number influenced the disease phenotype in terms of age of onset and associated clinical subtype. Genome-wide studies in well characterized clinical cohorts will be essential in order to decipher pathways of disease expression in C9ORF72-associated neurodegeneration.

Estimating the age of the most common Italian GRN mutation: walking back to Canossa times.

Mutations in the progranulin gene (GRN) were first implicated in frontotemporal lobar degeneration in 2006. The GRN p.Leu271LeufsX10 mutation is one of the most common GRN mutations worldwide. To gain further insight into the origin of this mutation in Italy, we performed a haplotype sharing analysis (32 families, residents of Lombardy) and refined the GRN p.Leu271LeufsX10 mutation dating. We showed that almost all families (30/32) can be traced to a single founder. We further estimated the age of this mutation using different methods and population growth rates both for Italy and Lombardy. Using DMLE, we dated the origin of this mutation to the Middle Ages, at the turn of the first millennium (phased families only, Italy: 39 and Lombardy: 32 generations ago; all families Italy: 45 and Lombardy 38 generations ago). Mutation dating was slightly postdated using Estiage (phased families only: 15 generations ago; all families: 20 generation ago). From a translational perspective, targeting mutation carriers offers a unique model to test disease-modifying drugs in clinical trials.

Cystatin C is released in association with exosomes: a new tool of neuronal communication which is unbalanced in Alzheimer's disease.

It has recently become clear that proteins associated with neurodegenerative disorders can be selectively incorporated into intraluminal vesicles of multivesicular bodies and subsequently released within exosomes. Multiple lines of research support a neuroprotective role for cystatin C in Alzheimer's disease (AD). Herein we demonstrate that cystatin C, a protein targeted to the classical secretory pathway by its signal peptide sequence, is also secreted by mouse primary neurons in association with exosomes. Immunoproteomic analysis using SELDI-TOF MS revealed the presence in exosomes of at least 9 different cystatin C glycoforms. Moreover, the over-expression of familial AD-associated presenilin 2 mutations (PS2 M239I and PS2 T122R) resulted in reduced levels of all cystatin C forms (native and glycosylated) and of amyloid-ß precursor protein (APP) metabolites within exosomes. A better understanding of the mechanisms involved in exosomal processing and release may have important implications for the fight against AD and other neurodegenerative diseases.

Plasma cystatin C and risk of developing Alzheimer's disease in subjects with mild cognitive impairment.

Recent years have witnessed an increasing interest in mild cognitive impairment (MCI), particularly as a possible prodromal stage of Alzheimer's disease (AD). Experimental and clinical data have suggested that cystatin C (CysC) is protective against the development of AD. In this study, we sought to cross-sectionally and longitudinally investigate the changes in plasma CysC levels in patients with MCI and whether the levels of this molecule might serve as a biochemical predictor of cognitive decline in this patient group. Cross-sectional analysis of baseline data showed a borderline significant difference in plasma CysC levels among the three study groups (Controls, n=63; AD, n=63; MCI, n=59) (p =0.032) that disappeared after post hoc analysis. Plasma CysC levels did not differ at baseline (t1) and at follow-up (t2) both in MCI patients that converted to AD (n= 32) and those that did not convert (n=27). However, a significant independent association between CysC at t1 and CysC at t2 was found in non-converters but not in converters MCI subjects. Moreover, when disease onset was evaluated in patients groups stratified on the basis of their CysC plasma levels, a significant anticipation of the conversion to dementia in MCI subjects with CysC levels below the median (CysC < 1067 ng/ml) (p =0.0011) was observed. Altogether, this work adds to the growing body of literature suggesting that CysC modulates the clinical expression of cognitive decline, and opens a new area of investigation of CysC as a therapeutic target for neurodegenerative disorders.