Impacts of Iron Metabolism Dysregulation on Alzheimer's Disease.

BACKGROUND: Iron plays an important role in maintaining cell survival, with normal iron trafficking known to be regulated by the ceruloplasmin-transferrin (Cp-Tf) antioxidant system. Disruption to this system is thought to be detrimental to normal brain function. OBJECTIVE: To determine whether an imbalance of iron and the proteins involved in its metabolism (ceruloplasmin and transferrin) are linked to Alzheimer's disease (AD) and to the expression of amyloid-beta (Aß) peptide 1-42 (Aß1-42), which is a major species of Aß, and the most toxic. METHODS: We evaluated the concentrations of iron, calcium, magnesium, and Aß1-42 in the cerebrospinal fluid (CSF) of patients with AD and cognitively normal controls. Correlations between the components of the Cp-Tf antioxidant system in plasma were studied to determine the role of peripheral blood in the onset and/or development of AD. We used commercial ELISA immunoassays to measure Aß1-42, immunoturbidimetry to quantify ceruloplasmin and transferrin, and colorimetry to quantify iron, calcium, and magnesium. RESULTS: We found that the AD group had lower CSF concentrations of Aß1-42 (p < 0.001) and calcium (p < 0.001), but a higher CSF concentration of iron (p < 0.001). Significantly lower plasma concentrations of ceruloplasmin (p = 0.003), transferrin (mean, p < 0.001), and iron (p < 0.001) were observed in the AD group than in cognitively normal adults. Moreover, we found a strong interdependence between most of these components. CONCLUSION: Iron dyshomeostasis has a crucial role in the onset of AD and/or its development. Correcting metal misdistribution is an appealing therapeutic strategy for AD.

Ceruloplasmin oxidized and deamidated by Parkinson's disease cerebrospinal fluid induces epithelial cells proliferation arrest and apoptosis.

In Parkinson's disease, the ferroxidase ceruloplasmin (Cp) is oxidized and deamidated by the pathological cerebrospinal fluid (CSF) environment. These modifications promote the gain of integrin binding properties, fostered by the deamidation of two NGR-motifs present in the Cp sequence that convert into the isoDGR-motif. Through isoDGR/integrin binding, the oxidized/deamidated-Cp (Cp-ox/de) mediates cell adhesion and transduces an intracellular signal in epithelial cells that seems to be addressed to regulate cell cycle, proliferation and cytoskeletal re-arrangement. However, the effect fostered on cells by integrins engagement via Cp-ox/de is not known. We found that in HaCaT epithelial cells, the incubation with Cp-ox/de resulted in proliferation inhibition mediated by isoDGR, cell cycle arrest and apoptosis induction. Similar proliferation inhibition was induced by treatment with purified Cp previously incubated in the CSF from Parkinson's disease patients, but not by Cp incubated in the CSF from healthy subjects. In human primary choroid plexus epithelial cells, a possible in vivo target of Cp-ox/de generated in pathological CSFs, we found that Cp-ox/de mediated cell adhesion via isoDGR/integrins binding and transduced an intracellular signal, which resulted in cell proliferation inhibition. Thus, the generation of Cp-ox/de in pathological CSFs and the consequent apoptosis induction of epithelial cells facing the liquor, might represent a novel mechanism that contributes to neurodegeneration.

Cerebrospinal fluid ceruloplasmin levels predict cognitive decline and brain atrophy in people with underlying ß-amyloid pathology.

OBJECTIVES: The mechanisms leading to neurodegeneration in Alzheimer's disease (AD) may involve oxidative stress and neuroinflammation. Ceruloplasmin (Cp) is a circulating protein that intersects both these pathways, since its expression is increased during the acute phase response, and the protein acts to lower pro-oxidant iron in cells. Since the role of Cp in AD, and its potential for use as a biomarker is not established, we investigated CSF Cp and its association with longitudinal outcome measures related to AD. METHODS: This was an observational study of 268 people from the Alzheimer's Disease Neuroimaging (ADNI) cohort. Subjects were classified clinically as having AD, mild cognitive impairment (MCI) or were cognitively normal (CN), and were also classified as being positive for ß-amyloid using established thresholds in the CSF t-tau/Aß42 ratio. Subjects underwent cognitive tests and MRI studies every 6 months for 2 years, then yearly thereafter for up to 6 years. RESULTS: At baseline, CSF Cp was not associated with clinical or pathological diagnosis, but we found an unexpected association between CSF Cp and levels of CSF apolipoprotein E. In longitudinal analysis, high level of CSF Cp was associated with accelerated cognitive decline (as assessed by ADAS-Cog, CDR-SB, and MMSE) and ventricular volume enlargement in people classified as MCI and who had underlying ß-amyloid pathology. CONCLUSION: These results raise new questions into the role of Cp in neuroinflammation, oxidative stress, and APOE pathways involved in AD, and reveal the potential for this protein to be used as a biomarker in disease prognostication.

Cerebrospinal Fluid Ceruloplasmin, Haptoglobin, and Vascular Endothelial Growth Factor Are Associated with Neurocognitive Impairment in Adults with HIV Infection.

Dysregulated iron transport and a compromised blood-brain barrier are implicated in HIV-associated neurocognitive disorders (HAND). We quantified the levels of proteins involved in iron transport and/or angiogenesis-ceruloplasmin, haptoglobin, and vascular endothelial growth factor (VEGF)-as well as biomarkers of neuroinflammation, in cerebrospinal fluid (CSF) from 405 individuals with HIV infection and comprehensive neuropsychiatric assessments. Associations with HAND [defined by a Global Deficit Score (GDS) ≥ 0.5, GDS as a continuous measure (cGDS), or by Frascati criteria] were evaluated for the highest versus lowest tertile of each biomarker, adjusting for potential confounders. Higher CSF VEGF was associated with GDS-defined impairment [odds ratio (OR) 2.17, p = 0.006] and cGDS in unadjusted analyses and remained associated with GDS impairment after adjustment (p = 0.018). GDS impairment was also associated with higher CSF ceruloplasmin (p = 0.047) and with higher ceruloplasmin and haptoglobin in persons with minimal comorbidities (ORs 2.37 and 2.13, respectively; both p = 0.043). In persons with minimal comorbidities, higher ceruloplasmin and haptoglobin were associated with HAND by Frascati criteria (both p < 0.05), and higher ceruloplasmin predicted worse impairment (higher cGDS values, p < 0.01). In the subgroup with undetectable viral load and minimal comorbidity, CSF ceruloplasmin and haptoglobin were strongly associated with GDS impairment (ORs 5.57 and 2.96, respectively; both p < 0.01) and HAND (both p < 0.01). Concurrently measured CSF IL-6 and TNF-α were only weakly correlated to these three biomarkers. Higher CSF ceruloplasmin, haptoglobin, and VEGF are associated with a significantly greater likelihood of HAND, suggesting that interventions aimed at disordered iron transport and angiogenesis may be beneficial in this disorder.

Copper and ceruloplasmin dyshomeostasis in serum and cerebrospinal fluid of multiple sclerosis subjects.

Although many studies have been carried out in order to understand the implication of copper (Cu) in the pathogenesis of multiple sclerosis (MS), the exact role that this metal plays in the disease is not still clear. Because of the lack of information in this subject, the present study compared the serum and cerebrospinal (CSF) levels of copper in MS patients in respect to a control group, matched for age and sex, finding a significant increase of metal concentrations, in both biological fluids of MS subjects. To confirm the possible impairment of Cu metabolism, we analyzed ceruloplasmin (Cp) level and activity, seeing as this protein is an established peripheral marker in diseases associated with Cu imbalance. By comparing these two parameters between control and MS subjects, we found an increase of Cp levels, associated with a decrease in Cp activity, in the second group. By analysing these data, free copper levels were calculated, significantly increased in serum of MS subjects; the increase in free copper could be one of the predisposing factors responsible for the Cu altered levels in CSF of MS patients. At the same time, this alteration could be attributable to the inability to incorporate Cu by Cp, probably due to the high oxidative environment found in serum of MS patients. Overall, all these copper alterations may play a role in MS pathogenesis.

Ceruloplasmin functional changes in Parkinson's disease-cerebrospinal fluid.

BACKGROUND: Ceruloplasmin, a ferroxidase present in cerebrospinal fluid (CSF), plays a role in iron homeostasis protecting tissues from oxidative damage. Its reduced enzymatic activity was reported in Parkinson's disease (PD) contributing to the pathological iron accumulation. We previously showed that ceruloplasmin is modified by oxidation in vivo, and, in addition, in vitro by deamidation of specific NGR-motifs that foster the gain of integrin-binding function. Here we investigated whether the loss of ceruloplasmin ferroxidase activity in the CSF of PD patients was accompanied by NGR-motifs deamidation and gain of function. RESULTS: We have found that endogenous ceruloplasmin in the CSF of PD patients showed structural changes, deamidation of the (962)NGR-motif which is usually hidden within the ceruloplasmin structure, and the gain of integrin-binding function. These effects occur owing to the presence of abnormal levels of hydrogen peroxide we detected in the CSF of PD patients. Interestingly, the pathological CSF's environment of PD patients promoted the same modifications in the exogenously added ceruloplasmin, which in turn resulted in loss of ferroxidase-activity and acquisition of integrin-binding properties. CONCLUSIONS: We show that in pathological oxidative environment of PD-CSF the endogenous ceruloplasmin, in addition to loss-of-ferroxidase function, is modified as to gain integrin-binding function. These findings, beside the known role of ceruloplasmin in iron homeostasis, might have important pathogenic implications due to the potential triggering of signals mediated by the unusual integrin binding in cells of central nervous system. Furthermore, there are pharmacological implications because, based on data obtained in murine models, the administration of ceruloplasmin has been proposed as potential therapeutic treatment of PD, however, the observed CSF's pro-oxidant properties raise the possibility that in human the ceruloplasmin-based therapeutic approach might not be efficacious.

A low-molecular-weight ferroxidase is increased in the CSF of sCJD cases: CSF ferroxidase and transferrin as diagnostic biomarkers for sCJD.

AIMS: Most biomarkers used for the premortem diagnosis of sporadic Creutzfeldt-Jakob disease (CJD) are surrogate in nature, and provide suboptimal sensitivity and specificity. RESULTS: We report that CJD-associated brain iron dyshomeostasis is reflected in the cerebrospinal fluid (CSF), providing disease-specific diagnostic biomarkers. Analysis of 290 premortem CSF samples from confirmed cases of CJD, Alzheimer's disease, and other dementias (DMs), and 52 non-DM (ND) controls revealed a significant difference in ferroxidase (Frx) activity and transferrin (Tf) levels in sporadic Creutzfeldt-Jakob disease (sCJD) relative to other DM and ND controls. A combination of CSF Frx and Tf discriminated sCJD from other DMs with a sensitivity of 86.8%, specificity of 92.5%, accuracy of 88.9%, and area-under-the receiver-operating-characteristic (ROC) curve of 0.94. This combination provided a similar diagnostic accuracy in discriminating CJD from rapidly progressing cases who died within 6 months of sample collection. Surprisingly, ceruloplasmin and amyloid precursor protein, the major brain Frxs, displayed minimal activity in the CSF. Most of the Frx activity was concentrated in the <3-kDa fraction in normal and diseased CSF, and resisted heat and proteinase-K treatment. INNOVATION: (i) A combination of CSF Frx and Tf provides disease-specific premortem diagnostic biomarkers for sCJD. (ii) A novel, nonenzymatic, nonprotein Frx predominates in human CSF that is distinct from the currently known CSF Frxs. CONCLUSION: The underlying cause of iron imbalance is distinct in sCJD relative to other DMs associated with the brain iron imbalance. Thus, change in the CSF levels of iron-management proteins can provide disease-specific biomarkers and insight into the cause of iron imbalance in neurodegenerative conditions.

Ceruloplasmin oxidation, a feature of Parkinson's disease CSF, inhibits ferroxidase activity and promotes cellular iron retention.

Parkinson's disease is a neurodegenerative disorder characterized by oxidative stress and CNS iron deposition. Ceruloplasmin is an extracellular ferroxidase that regulates cellular iron loading and export, and hence protects tissues from oxidative damage. Using two-dimensional electrophoresis, we investigated ceruloplasmin patterns in the CSF of human Parkinson's disease patients. Parkinson's disease ceruloplasmin profiles proved more acidic than those found in healthy controls and in other human neurological diseases (peripheral neuropathies, amyotrophic lateral sclerosis, and Alzheimer's disease); degrees of acidity correlated with patients' pathological grading. Applying an unsupervised pattern recognition procedure to the two-dimensional electrophoresis images, we identified representative pathological clusters. In vitro oxidation of CSF in two-dimensional electrophoresis generated a ceruloplasmin shift resembling that observed in Parkinson's disease and co-occurred with an increase in protein carbonylation. Likewise, increased protein carbonylation was observed in Parkinson's disease CSF, and the same modification was directly identified in these samples on ceruloplasmin. These results indicate that ceruloplasmin oxidation contributes to pattern modification in Parkinson's disease. From the functional point of view, ceruloplasmin oxidation caused a decrease in ferroxidase activity, which in turn promotes intracellular iron retention in neuronal cell lines as well as in primary neurons, which are more sensitive to iron accumulation. Accordingly, the presence of oxidized ceruloplasmin in Parkinson's disease CSF might be used as a marker for oxidative damage and might provide new insights into the underlying pathological mechanisms.

Copper status abnormalities and how to measure them in neurodegenerative disorders.

Copper is essential for life. It plays a pivotal role in the central nervous system, in which a low concentration of copper results in incomplete development, whereas an excess of copper is injurious. Redox reactions are at the basis of copper toxicity: in fact, it catalyses the production of reactive oxygen species in Fenton or Haber-Weiss reactions. Abnormalities of copper homeostasis in neurodegenerative disorders were discovered decades ago. The steady increase in reports from the literature demonstrating copper involvement in neurodegenerative disorders coincides with the improvement, reliability and low cost devices which measure copper markers in biological samples. These devices also demonstrate increasing relevance in diagnosis and in therapy monitoring as well. Methods and new perspectives for the analysis of copper markers status are discussed herein, weighing pros and cons of application to a specific neurological disorder. In particular, it have been introduced three patents regarding a new apparatus for measuring levels of metal in biological samples, employing a current measuring device. A mention of recent patents concerning new derivatives of curcumin has been done considering its metal chelating and multi-functional properties that make these compounds interesting candidates for treatment of some neurodegenerative disorders.

Free copper, ferroxidase and SOD1 activities, lipid peroxidation and NO(x) content in the CSF. A different marker profile in four neurodegenerative diseases.

The understanding of oxidative damage in different neurodegenerative diseases could enhance therapeutic strategies. Our objective was to quantify lipoperoxidation and other oxidative products as well as the activity of antioxidant enzymes and cofactors in cerebrospinal fluid (CSF) samples. We recorded data from all new patients with a diagnosis of either one of the four most frequent neurodegenerative diseases: Parkinson's disease (PD), Alzheimer's disease (AD), Huntington's disease (HD) and lateral amyotrophic sclerosis (ALS). The sum of nitrites and nitrates as end products of nitric oxide (NO) were increased in the four degenerative diseases and fluorescent lipoperoxidation products in three (excepting ALS). A decreased Cu/Zn-dependent superoxide dismutase (SOD) activity characterized the four diseases. A significantly decreased ferroxidase activity was found in PD, HD and AD, agreeing with findings of iron deposition in these entities, while free copper was found to be increased in CSF and appeared to be a good biomarker of PD.

Features of ceruloplasmin in the cerebrospinal fluid of Alzheimer's disease patients.

The level of the apo-form of the copper enzyme ceruloplasmin (CP) is an established peripheral marker in diseases associated with copper imbalance. In view of the proposal that disturbances of copper homeostasis may contribute to neurodegeneration associated with Alzheimer's disease (AD), the present work investigates, by Western blot and non-reducing SDS-PAGE followed by activity staining, the features of CP protein, and the copper/CP relationship in cerebrospinal fluid (CSF) and serum of AD patients. Results show that only a fraction of total copper is associated with CP in the CSF, at variance with serum, both in affected and in healthy individuals. Furthermore, a conspicuous amount of apo-ceruloplasmin and a decrease of CP oxidase activity characterize the CSF of the affected individuals, and confirm that an impairment of copper metabolism occurs in their central nervous system. In the CSF of AD patients the decrease of active CP, associated with the increase in the pool of copper not sequestered by this protein, may play a role in the neurodegenerative process.

[Oxidative stress in victims with heavy combined cranium-facial trauma].

For acute posttraumatic period of heavy combined cranium-facial trauma (CFT) considerable activation of peroxide lipids oxidation in the liquor is typical beginning from the 1st day of posttraumatic period on the background of speedy and drastic depletion of fermentative and low-molecular antioxidant liquor system (in spite of introduction of antioxidants particularly a-tocopherol acetate). Non-adequate functioning of the system of antioxidant defense on the background of free radical activity splash can be considered as breakdown of the process of adaptive reaction forming. It leads to weighting the course of posttraumatic period of heavy combined cranium-facial trauma and its outcome as a whole.

Cerebrospinal fluid diagnostic markers correlate with lower plasma copper and ceruloplasmin in patients with Alzheimer's disease.

Increasing evidence links Alzheimer's disease (AD) with misbalanced Cu homeostasis. Recently, we have shown that dietary Cu supplementation in a transgenic mouse model for AD increases bioavailable brain Cu levels, restores Cu, Zn-super oxide-1 activity, prevents premature death, and lowers A beta levels. In the present report we investigated AD patients with normal levels of A beta 42, Tau and Phospho-Tau in the cerebrospinal fluid (CSF) in comparison with AD patients exhibiting aberrant levels in these CSF biomarkers. The influence of these cerebrospinal fluid (CSF) diagnostic markers with primary dependent variables blood Cu, Zn and ceruloplasmin (CB) and secondary with CSF profiles of Cu, Zn and neurotransmitters was determined. Multivariate tests revealed a significant effect of factor diagnostic group (no AD diagnosis in CSF or AD diagnosis in CSF) for variables plasma Cu and CB (F=4.80; df=2, 23; p=0.018). Subsequent univariate tests revealed significantly reduced plasma Cu (-12.7%; F=7.05; df=1, 25; p=0.014) and CB (-14.1%; F=9.44; df=1, 24; p=0.005) levels in patients with aberrant CSF biomarker concentrations. Although only AD patients were included, the reduced plasma Cu and CB levels in patients with a CSF diagnosis of advanced AD supports previous observations that a mild Cu deficiency might contribute to AD progression.

[Age-related features of ceruloplasmin biosynthesis and distribution in rats]. / Vozrastnye osobennosti biosinteza i raspredeleniia tseruloplazmina v organizme krys.

Biosynthesis of ceruloplasmin, a copper-containing glycoprotein, which plays an important role in copper transfer and bidirectional iron transport in vertebrates, was studied in 7-day old rats characterized by the embryonic type of copper metabolism. In addition to the liver, copper is synthesized in the lungs, brain, and kidneys. The appearance of labeled ceruloplasmin in the blood flow coincides with the time of liberation of de novo synthesized ceruloplasmin from the liver. [14C]-Ceruloplasmin is absorbed from the blood flow by cells of the heart, lung, and kidneys and binds to erythrocytes. The polypeptide ceruloplasmin chain does not enter the brain cells from the blood flow. Immunoreactive polypeptides of the ceruloplasmin receptor were found using immunoblotting in plasma membranes of the heart, liver, kidneys, and erythrocytes, rather than in those of the brain. It was shown by reverse transcription coupled with PCR using selective primers these cells contain molecular forms of ceruloplasmin mRNAs programming the synthesis of both secretory ceruloplasmin and ceruloplasmin connected with the plasma membrane via the glycosyl phosphatidylinositol anchor. After transition to the adult type of copper metabolism, the blood serum contents of copper and ceruloplasmin sharply increase, while the content of CP in the cerebrospinal fluid, as measured according to the oxidase and antigen activities, and copper concentration, as determined by atom-absorption spectrometry, remain low. Ontogenetic features of the system ensuring the copper homeostasis in mammals are discussed.

Infantile spasms and Menkes disease.

Epileptic seizures are a common feature in Menkes disease, an X-linked genetic disorder of copper metabolism. Details of type of seizures are rarely reported. We report the evolution of infantile spasms in two patients with Menkes disease and the relation with subcutaneous administration of copper-histidine.

Reduced ferroxidase activity in the cerebrospinal fluid from patients with Parkinson's disease.

Recent evidence suggest the implication of transition metals leading to overproduction of free radicals as a possible causal factor in the death of nigral cells associated to Parkinson's disease (PD). Iron depots in the basal ganglia of PD patients have been described; in addition, contents of nigral copper have been found decreased, while its concentration in cerebrospinal fluid (CSF) is raised, particularly the free form of the metal. To search for a possible link between altered copper concentrations and PD, we advanced the hypothesis that ferroxidase activity of ceruloplasmin is decreased in the CSF of PD patients. We studied 35 untreated PD patients, 14 L-3,4-dihydroxyphenylalanine (L-DOPA)-treated PD patients and 26 controls. Both CSF ferroxidase activity and CSF copper content were measured and correlated with the clinical stage of the disease. We found that untreated PD patients had a significant reduction of 40% in CSF ferroxidase while CSF copper was slightly increased as compared with both the values in L-DOPA-treated PD patients and controls. We also found that the fraction of copper linked to ferroxidase in untreated PD is inversely related to the clinical stage of the disease.

[Usefulness of establishing chosen acute phase proteins concentrations in serum and cerebrospinal fluid for differential diagnosis and monitoring of purulent meningitis in adults. I]. / Przydatnosc oznaczania stezen wybranych bialek ostrej fazy w surowicy krwi i plynie mózgowo-rdzeniowym do diagnostyki róznicowej i monitorowania przebiegu ropnych zapalen opon mózgowo-rdzeniowych u doroslych. I. Stezenie bialek ostrej fazy w surowicy krwi.

40 adult patients were examined: 24 with purulent meningitis and 16 with lymphocytic meningitis. The control group consisted of 100 healthy people. In purulent meningitis patients in the 1st, 3rd, 5th, 7th, 14th and 28th day of the disease, concentrations of the following acute phase proteins were measured in serum: C-reactive protein, alpha 1-antitripsin, alpha 1-orosomucoid, alpha 2-ceruloplasmin, alpha 2-macroglobulin and alpha 2-haptoglobin. In lymphocytic meningitis patients concentrations of the above mentioned acute phase proteins were measured only in the 1st day of the disease. Usefulness of establishing alpha 2-haptoglobin, alpha 1-antitripsin, alpha 2-ceruloplasmin and particularly C-reactive protein concentrations for differential diagnosis of purulent and lymphatic meningitis was proved. Evaluation of C-reactive protein and alpha 1-antitripsin concentration kinetics proved to be fully useful for monitoring of seriousness of the course of purulent meningitis, and together with evaluation of the clinical condition of the patient it can constitute a valuable marker of effectiveness of the disease treatment.

[Usefulness of establishing chosen acute phase proteins concentrations in serum and cerebrospinal fluid for differential diagnosis and monitoring of purulent meningitis in adults. II]. / Przydatnosc oznaczania stezen wybranych bialek ostrej fazy w surowicy krwi i plynie mózgowo-rdzeniowym do diagnostyki róznicowej i monitorowania przebiegu ropnych zapalen opon mózgowo-rdzeniowych u doroslych. II. Stezenie bialek ostrej fazy w plynie mózgowo-rdzeniowym.

40 adult patients were examined: 24 with purulent meningitis and 16 with lymphocytic meningitis. In the course of purulent meningitis concentrations of the following acute phase proteins were measured in the cerebrospinal fluid: C-reactive protein, alpha 1-antitripsin, alpha 1-orosomucoid, alpha 2-ceruloplasmin, alpha 2-macroglobulin and alpha 2-haptoglobin in the 1st, 3rd, 5th, 7th, 14th and 28th day of the disease. In lymphocytic meningitis patients concentrations of the above mentioned acute phase proteins were measured only in the 1st day of the disease. Full usefulness of establishing concentrations of all the above mentioned acute phase proteins within the first five days of the purulent meningitis for differential diagnosis of purulent and lymphatic meningitis was proved. Evaluation of concentration kinetics of acute phase proteins in cerebrospinal fluid for monitoring of the course of purulent meningitis is of a limited value.

Ceruloplasmin is increased in cerebrospinal fluid in Alzheimer's disease but not Parkinson's disease.

Although the pathophysiology of Alzheimer's disease (AD) and Parkinson's disease (PD) is unknown, altered brain antioxidative mechanisms have been found in both disorders. Ceruloplasmin (CP) and transferrin (TF) interact to limit concentrations of free ferrous iron (Fe2+), and thus play an important role in antioxidant defense in serum; both proteins are also produced in brain, where their significance as antioxidants is unknown. We quantified concentrations of CP and TF by immunoassay in AD (n = 17) and PD (n = 12) cerebrospinal fluid (CSF) to determine whether these proteins could serve as disease markers. CP was increased versus aged normal subjects (n = 11) in AD (p < 0.05) but not PD CSF, whereas TF concentrations did not differ between groups. CP levels have been reported to be elevated in some brain regions in AD, and increased CP in AD CSF may reflect this finding. Systemic inflammation and oxidative stress are major factors stimulating hepatic CP synthesis, and it remains to be determined whether increased CP concentrations in AD CSF and brain follow from similar mechanisms.

[Quantitative determination of 7 proteins in csf of patients with Guillain Barre syndrome].

Quantitative determinations were done for seven protein components namely albumin, IgG, transferrin, alpha-2 macroglobulin, IgA, IgM and ceruloplasmin in the CSF and sera from patients with Guillain Barré syndrome. The results showed that each of the protein significantly increased. All of these correlated remarkably with the increased values of total proteins in CSF. It seemed that the concentrations of the protein in CSF were influenced by those of the proteins in serum and the size of the corresponding protein molecule.