Alan Leake

Studies on the serotonin uptake binding site in major depressive disorder and control post-mortem brain: Neurochemical and clinical correlates

Serotonin (5-hydroxytryptamine; 5HT) uptake sites have been measured using the selective high affinity uptake inhibitor 3H-citalopram in post-mortem frontal cortex from depressed and matched control subjects. The lateralization of these sites was assessed in neurologically normal brain. A lower concentration of 3H-citalopram binding was found in brains from depressed subjects. A nonsignificant trend toward a greater attenuation of 5HT uptake sites was observed in brains of bipolar cases in the depressed state. No effect of antidepressant treatment or of the age at onset of illness was noted. No difference in the binding capacity of the 5HT uptake site was noted between hemispheres of normal brains.

Brain matrix metalloproteinase 1 levels are elevated in Alzheimer's disease

Several lines of evidence indicate that there may be an inflammatory component to the pathology of Alzheimers disease (AD), the major form of degenerative dementia in the elderly. Activity of inflammatory cells, and the elaboration of toxic molecules by such cells may be a significant factor in disease progression. In peripheral inflammatory states, the increased activity of matrix metalloproteinase (MMP) enzymes are a major cause of tissue breakdown and secondary damage in diseases such as rheumatoid arthritis. The activity of such enzymes in the normal or diseased central nervous system is, however, not well characterized. We have therefore determined the levels of MMP 1 (collagenase) in the normal human brain and in AD. MMP1 levels were relatively low though were significantly elevated by approximately 50% in AD in all cortical areas examined. Given the activity towards collagen of MMP1, it is possible that enhanced MMP1 activity in AD, may contribute to the blood-brain barrier dysfunction seen in AD.

Molecular biology of APO E alleles in Alzheimer's and non-Alzheimer's dementias

Current research into the aetiology of the dementias is focused upon genetic factors which give rise to the disease process. Recently the Apolipoprotein E gene (APO E) and in particular the epsilon 4 allele has been shown to be a risk factor for late onset Alzheimers disease (AD) where there is an increased frequency of the epsilon 4 allele. The epsilon 4 allele has also been shown to reduce the age at onset of dementia in AD in a dose dependent manner, with the epsilon 2 allele having an opposing effect. We have genotyped a large series of clinically and neuropathologically confirmed cases of AD and found the expected increase in the Apolipoprotein epsilon 4 allele frequency when compared to a control population. Similarly, in Lewy Body Dementia (LBD) an increased epsilon 4 frequency is also found though a normal epsilon 2 frequency exists, unlike in AD where the epsilon 2 frequency is reduced. No changes in APO E allele frequencies were found in presenile AD, Parkinsons disease with or without dementia, or in Downs syndrome. No association was found between any of the APO E alleles and the histopathological indices of AD, cortical senile plaques and neurofibrillary tangles, in any disease category. Neurochemical indicators of AD, loss of choline acetyltransferase activity was also unaffected by APO E genotype. Whilst their appears to be a strong association between the APO E allele and AD and also in LBD, other related neurodegenerative disorders associated with dementia do not show such a linkage. Changes in the epsilon 2 allele frequency may indicate a genetic difference between AD and LBD. The epsilon 4 allele does not appear to influence the burden of AD type pathology and this is particularly relevant given the relative lack of NFT in LBD indicating that factors other than SP or NFT may govern the onset of dementia.

Cortical concentrations of corticotropin-releasing hormone and its receptor in Alzheimer type dementia and major depression

Corticotropin-releasing hormone-immunoreactivity (CRH-IR) and CRH receptors (binding capacity and affinity) were measured in postmortem cortical areas from depressed subjects, two groups of senile dementia of the Alzheimer type (SDAT), and age-, sex-, and postmortem-delay-matched controls. No difference in CRH-IR and CRH receptor status between depressed subjects and controls was noted. CRH-IR was decreased in all cortical areas in SDAT, with a corresponding increase in CRH receptor binding capacity (with no change in affinity) in occipital cortex. No effects of postmortem delay were seen. It is suggested that the increase in CRH receptor numbers in SDAT is related to the degree of distribution of pathological involvement in specific regions.

Cortisol, ACTH, and dexamethasone concentrations in a psychogeriatric population

Cortisol and adrenocorticotrophic hormone (ACTH) were measured at 2 time points before the administration of 1 mg of dexamethasone (day 1) and 1 time point on the following day (day 2). Thirteen severely depressed elderly patients, 15 patients with Alzheimer-type dementia (ATD), and 16 normal controls were studied. Cortisol was markedly elevated in depressed patients compared with the other subjects in day 1 samples. Following dexamethasone, both the depressed and ATD patients showed a similar elevation of cortisol compared with controls. ACTH concentrations were not significantly different between the groups before dexamethasone, but were significantly higher in both depressed and ATD patients after dexamethasone. More depressed patients than ATD patients exhibited hypersecretion of ACTH after dexamethasone. This implies that ACTH is less responsive to glucocorticoid feedback in elderly depressed patients, which may be a factor in causing hypercortisolemia.

Effect of apolipoprotein E genotype on Alzheimer's disease neuropathology in a cohort of elderly Norwegians.

A cohort of elderly Norwegians dying in nursing homes in the Oslo region have been genotyped for the Apolipoprotein E (ApoE) gene. Alzheimers disease (AD) cortical neuropathology and clinical evidence of dementia were used to assign cases without evidence of other confounding neuropathology. Senile plaque (SP) and neurofibrillary tangle (NFT) densities in frontal, temporal and parietal cortex were then correlated with ApoE genotype to determine any relationship between ApoE genotype and AD pathology. Comparisons with ApoE epsilon 3, epsilon 4 and epsilon 2 allele dosage failed to show any significant effect on cortical SP densities in any cortical area. NFT densities were increased by epsilon 4 allele dosage in the frontal cortex but not in other cortical regions. A reduction was seen in cortical NFT densities with epsilon 2 allele, though again this was not consistently significant in any of the groups. The epsilon 3 allele failed to show any consistent effect on cortical NFT densities. Assessment by individual genotypes showed epsilon 2/3 < epsilon 2/4 < epsilon 3/3 < epsilon 3/4 < epsilon 4/4 which had highest cortical NFT densities in all areas. By genotype, SP densities were generally of the order epsilon 2/4 < epsilon 2/3 < epsilon 3/3 < epsilon 4/4 < epsilon 3/4 though in none of the groups was this significant. Duration of disease showed no consistent effect on neuropathological burden. ApoE genotype may have an effect on determining whether individuals suffer from AD and the age at onset of disease but may only have a minimal effect on pathology burden.

Apolipoprotein E and alpha-1 antichymotrypsin polymorphism genotyping in Alzheimer's disease and in dementia with Lewy bodies: Distinctions between diseases

The possibility of gene interactions in Alzheimers disease (AD) has been suggested by the finding of an association of the AA genotype of the alpha-1 antichymotrypsin (AACT) gene and the apolipoprotein E (apoE) ϵ4/4 genotype in AD. We tested this possibility by genotyping a large series of clinically and neuropathologically confirmed cases of AD and a series of cases with dementia with Lewy bodies (DLB) with a matched control group for the AACT locus and apoE. apoE genotyping showed the established finding of an increased frequency of the apoE ϵ4 allele in AD and in DLB. The AD and DLB groups differed between each other with a higher ϵ2 allele frequency and a reduced incidence of the ϵ4/4 genotype in DLB. Differences in the apoE frequencies may account for some of the differences between the two diseases. No association was found for the AACT A allele in AD or DLB in the groups as a whole or when stratified with respect to apoE, with the exception of a trend showing an increased incidence of the apoE ϵ4/4 AACT AA genotype combination in AD patients (χ2 = 3.18, p = 0.071, although in DLB this was not apparent (χ2 = 0.0, p = 1.0). The AACT A allele is not a major risk factor for late-onset AD or DLB.

Neocortical concentrations of neuropeptides in senile dementia of the alzheimer and lewy body type: Comparison with parkinson's disease and severity correlations

Corticotropin releasing hormone (CRH), somatostatin (SRIF), and arginine vasopressin (AVP) concentrations were estimated using radioimmunoassay in the temporal and occipital cortices in postmortem brain from patients clinically and neuropathologically diagnosed as senile dementia of the Lewy body type (SDLT), senile dementia of the Alzheimer type (SDAT), and Parkinsons disease (PD) and from neurologically normal controls. The concentration of temporal and occipital neocortical CRH was diminished in both SDAT and SDLT compared to control values, whereas SRIF was reduced only in temporal cortex in both these conditions. In contrast, the concentrations of both CRH and SRIF were unaltered in PD. The concentrations of AVP in SDLT, SDAT, and PD were similar to those found in the control groups. The decrement in SRIF, but not CRH, was found to be correlated with some indices of severity of illness in SDAT; a similar but nonsignificant trend for SRIF was observed in SDLT.

No association between an intronic polymorphism in the presenilin-1 gene and Alzheimer's disease.

Mutations in the presenilin-1 (PS-1) gene are believed to be responsible for the majority of familial early-onset Alzheimers disease (AD). The finding of an intronic polymorphism in the PS-1 gene prompted an investigation into its relevance in AD. An association between homozygosity for the most common allele (allele 1) in this intronic polymorphism and late-onset AD has been shown and has been confirmed by others though some studies do not support these findings. We genotyped a large series of sporadic AD cases (n = 120) and age-matched controls (n = 108) for this intronic polymorphism. We then compared both the frequency of allele 1 and allele 1 homozygosity between the AD group as a whole and in early-onset (n = 26) and late-onset (n = 94) groups with age-matched control groups (n = 29 and n = 79, respectively). No increase in the frequency or homozygosity of allele 1 in either the AD group as a whole, or when divided into late- and early-onset cases was found. Increases in the frequency of allele 1 homozygotes and in the number of non-apolipoprotein E epsilon4 carrying allele 1 homozygotes/heterozygotes was demonstrated in the early-onset AD cases although these values did not reach significance. We conclude that there is no relationship between this intronic polymorphism in the PS-1 gene and AD in the homogenous population genotyped in this study.

Alterations in Neuropeptides in Aging and Disease

SummaryMarked specific and selective changes in the levels of some neuropeptides in age-related diseases, such as senile dementia of the Alzheimer (SDAT) or Lewy body (SDLT) types, Parkinson’s disease, Huntington’s disease and major depressive disorder, versus normal aging have been noted. However, the levels of most neuropeptides are normal.The only 2 peptides consistently altered in SDAT are somatostatin and corticotrophin-releasing hormone both of which are reduced. In Huntington’s disease, the level of substance P in the basal ganglia is reduced suggesting a preferential vulnerability of spiny neurones in this disease. In Parkinson’s disease, substance P is attenuated in the basal ganglia while somatostatin is reduced in the neocortex. These and other results suggest that substance P deficits are related to movement disorders while somatostatin deficits are related to cognitive impairment. SDLT is a type of dementia with features common to both SDAT and Parkinson’s disease, although the changes in neuropeptides suggest that neurochemically the disease is more closely related to SDAT.In major depressive disorder, the level of corticotrophin-releasing hormone is reduced while there is a reciprocal increase in corticotrophin-releasing hormone receptors suggesting that the neurones remain functional.Potential clinical intervention has been limited by problems such as poor penetration of agents into the brain and the short half-lives of neuropeptide agonists and antagonists. However, some currently available agents may act, at least in part, through modulation of neuropeptide pathways, e.g. carbamazepine and alprazolam both modulate the corticotrophin-releasing hormone system in animals, and both have clinically proven antidepressant activity.