The development of cerebral amyloid angiopathy in cerebral vessels. A review with illustrations based upon own investigated post mortem cases.

The process of ß-amyloid accumulation in cerebral vessels is presented. Cerebral amyloid angiopathy (CAA) was confirmed during an autopsy. It was diagnosed according to the Boston criteria. Cerebral amyloid angiopathy can involve all kinds of cerebral vessels (cortical and leptomeningeal arterioles, capillaries and veins). The development of CAA is a progressive process. ß-amyloid appears first in the tunica media, surrounding smooth muscle cells, and in the adventitia. ß-amyloid is progressively accumulated, causing a gradual loss of smooth muscle cells in the vessel wall and finally replacing them. Then, the detachment and delamination of the outer part of the tunica media results in the "double barrel" appearance, fibrinoid necrosis, and microaneurysm formation. Microbleeding with perivascular deposition of erythrocytes and blood breakdown products can also occur. ß-amyloid can also be deposited in the surrounding of the affected vessels of the brain parenchyma, known as "dysphoric CAA". Ultrastructurally, when deposits of amyloid fibers were localized in or outside the arteriolar wall, the degenerating vascular smooth muscle cells were observed. In the Institute of Psychiatry and Neurology the study was carried out in a group of 48 patients who died due to intracerebral hemorrhage caused by sporadic CAA.

Lewy body variant of Alzheimer's disease and Alzheimer's disease: a comparative immunohistochemical study.

Immunohistochemistry (IHC) and ultrastructural study were performed on 19 demented autopsy cases of sporadic Alzheimer's disease (AD). Semiquantitative IHC assessment of the pathological changes, according to the criteria of the Consortium to Establish a Registry of Alzheimer's Disease (CERAD) and the Consortium on Dementia with Lewy Bodies, showed morphological hallmarks of AD in 18 demented patients. It was found that 11 of these cases fulfilled criteria for "pure" AD, whereas the remaining 7 cases, with mixed findings, Lewy bodies (LBs) and Lewy-related dystrophic neurites, neuritic plaques (NP) and sometimes neurofibrillary tangles (NFT), met the criteria for Lewy body variant of Alzheimer's disease (LBV). One case with brain stem and cortical LBs but without NP and NFT was finally diagnosed as a pure form of dementia with Lewy bodies (DLB). Regional distribution and semiquantitative assessment frequency of alpha-synuclein-immunoreactive LBs, tau-immunoreactive NFT and beta-amyloid immunoreactive senile plaques, were compared between LBVand AD. Ultrastructural examination confirmed the filamental structure of cortical LBs. In conclusion, IHC study including antibody to alpha-synuclein, the sensitive marker for Lewy bodies, revealed the coexistence of brain stem and cortical LBs and pathological features of AD in a great part of dementia cases. Patients with mixed, LBs, NP and sometimes NFT pathology, fulfilled neuropathological CERAD criteria for LBV. Semiquantitative comparative IHC study, according to LBs- and NFT-scores and CERAD NP-scores showed in the LBV group a significantly lower frequency of NFT coexisting with neocortical LBs than in the group with pure form of AD.

Neuropathological analysis of pathological forms of astroglia in Wilson's disease.

A neuropathological study of Alzheimer type I (Alz I) and Alzheimer type II (Alz II) as well as Opalski (Opl) cells was performed serially on brain tissue from nine autopsied Wilson's disease (WD) cases. Conventional staining methods (Kluver-Barrera, HE, PAS) and immunocytochemical techniques (anti-GFAP and anti-Metallothionein-MT) were used. On conventional staining, each of the studied abnormal cell types retained common morphological characteristics of astroglia, and concurrently demonstrated its own distinctive features, specific only for a given cell type. Anti-GFAP staining revealed positive immunoreactivity of Alz I and Opl cells, and its absence in Alz II cells. On anti-MT staining both the cytoplasm and nucleus of Alz I and Opl cells showed positivity whereas in Alz II cells the cytoplasm was positive in contrast to the negative nucleus. The results of our study confirm the hypothesis of the astroglial origin of all three types of cells. The lack of immunoreactivity for GFAP and similar immunocytochemical staining patterns for MT in Alz II cells and protoplasmic astrocytes may suggest that Alz II cells originate from the protoplasmic type of astroglia. The fact that Alz I and Opl cells resemble fibrous astrocytes in their immunoreactive positivity for GFAP may lead to a supposition that they originate from the fibrous type of astroglia. MT-positive expression by the three abnormal cell types suggests that they may be involved in the process of copper detoxification in WD.

Quantitative evaluation of intranuclear inclusions in SSPE: correlation with disease duration.

Three types of intranuclear inclusions in neurones, oligodendrocytes and astrocytes were quantitatively evaluated by electron microscopy in the autopsy material derived from six cases of subacute sclerosing panencephalitis (SSPE) with different duration of disease. Viral nucleocapsids were found in neurones and oligodendrocytes with the highest incidence (about 38% of nuclei) in two acute cases (adolescent), whereas in two subacute cases only 10% of nuclei of these cells contained nucleocapsids. However, in one acute case (child) and one chronic case, no nucleocapsids were detected at all, despite very intensive study. Two other types of intranuclear inclusions--nuclear bodies (NBs) and granulofilamentous inclusions (GFs) were present in astrocytic nuclei in all cases. Nuclear bodies were found the most frequently (about 66%) in cases of a several-week-long duration, and their incidence decreased with the extended duration of the disease. In the case of a seven-year-long duration, about 31% of nuclei contained NBs. The incidence of certain types of NBs varied also in individual groups of cases, and the same applied to the occurrence of cellular nuclei with different numbers of NBs. Nuclear bodies types IVand V occurred with similar frequency, regardless of the disease duration. The highest incidence of nucleocapsids and NBs was accompanied by the highest (about 25%) frequency of GF in astrocytic nuclei. The incidence of the latter declined with the prolonged duration of the disease, and in the chronic case it was about 16 times lower than in acute cases. In some acute and subacute cases, GF occurred together with NBs. Astrocytic nuclei with both types of inclusions occurred with a similar frequency (about 1.6-1.8%).

Ultrastructural study of mother and daughter muscle changes with mitochondrial encephalomyopathy.

We present the light and electron microscopy examinations of skeletal muscle biopsies from a 36-year-old mother and her 13-year-old daughter with mitochondrial encephalomyopathies. Clinical signs and symptoms suggesting mitochondrial disease, such as disseminated neurological symptoms, visual and hearing disturbances, mental disability, exercise intolerance, heart conduction disturbances, short stature, family history, were present in both patients. The mother's niece (8 years old) also died with progressive neurological disorder. CT showed cerebral and cerebellar atrophy in mother and multifocal subcortical atrophy in daughter. There was lactic acidosis in blood serum and cerebrospinal fluid in daughter. In the daughter's muscle a lot of fibres looked like ragged red fibres. Electron microscopic examination revealed the alterations of mitochondria in skeletal muscle of both patients that concerned the number, size, shape and the fine structural appearance of the mitochondria. The most characteristic mitochondrial abnormalities in daughter's muscles were paracrystalline inclusions in the intracristal space. In mother's muscles most of the mitochondria were markedly enlarged and they possessed aberrant configurations of cristae. The mitochondrial matrix contained sometimes spherical electron dense bodies different in size and vacuoles. Ring-shaped mitochondria were also observed. The most prominent ultrastructural feature, similarly as in daughter, was the occurrence of intramitochondrial highly ordered paracrystalline inclusions.

Neurones and microglia in central nervous system immune response to degenerative processes. Part 1: Alzheimer's disease and Lewy body variant of Alzheimer's disease. Quantitative study.

The quantitative correlation between neurone loss and brain immune response, assessed by intensity of microglia inflammatory reaction in cortical association area and limbic cortex, was investigated and compared in previously immunohistochemistry (IHC) and ultrastructural confirmed 11 cases of Alzheimer's disease (AD), 7 cases mixed form of Dementia with AD findings and Lewy bodies (AD/DLB) reported, in accordance with Consortium on Dementia, as Lewy body variant of AD (LBV) and 6 non-demented autopsy control cases from 63 to 86 years old. In the present work we investigated association and limbic cortical areas linked with memory mechanisms; there are regions characterised by early distribution of IHC confirmed AD and DLB/AD (LBV) markers, as well as a substantial physiological stability of neurone pool regardless of age. The results indicated that AD and LBV differ in their neurone loss intensity and inflammatory reaction, with much higher intensity in AD. In Alzheimer's disease, neurone loss in association temporal cortex made up 51% of control values with simultaneous 8-fold increase in the density of MHC II-positive activated microglia, whereas in LBV, both the loss of neurone density and the increase in activated microglia density, was not so high (up to 41% and 4-5-fold, respectively). Changes in the limbic cortex were less pronounced. A strong correlation in the clinical material between neurone loss and microglia activation in both processes, especially in AD (r = 0.73), speaks in favour of the hypothesis on the neuronal immune surveillance and arousal of immune brain response in conditions of declining control, due to significant neurone loss in the neurodegenerative process. The inflammatory reaction of MHC II-immunoreactive microglia, concomitant with neurodegenerative process, seems to be a consequence of increased immune response due to loss of neurones and weakening of their control upon immunosurveillance in central nervous system.

Ultrastructural changes in neuronal and glial cells in subacute sclerosing panencephalitis: correlation with disease duration.

This paper presents ultrastructural changes in neuronal and glial cells with special reference to intranuclear inclusion bodies in subacute sclerosing panencephalitis (SSPE) with different duration (from several weeks to seven years). Brain autopsy at ultrastructural level revealed the nucleocapsids of paramyxovirus in neuronal and oligodendroglial nuclei in 4 of 6 SSPE cases under study. Nucleocapsids of measles virus were present in two cases of disease lasting several weeks and in two cases with disease duration of two years, while abundant nuclear bodies and granulofilamentous inclusions in astrocytic nuclei were found in all cases. Occasionally, both granulofilamentous inclusions and complex nuclear bodies occurred in the same astrocytic nucleus. Only in the case lasting seven years they were not observed. It is likely that there is a structural and morphological relationship between these two types of inclusions present in astrocytic nuclei. Nuclear bodies and granulofilamentous inclusions were common and independent of the presence or absence of virus nucleocapsids. In the case of SSPE with a seven-year duration but without viral nucleocapsids in neuronal and oligodendroglial nuclei, neuronal tangles were observed.

Selectin glycoprotein ligands.

Lectin selectins and their counter-receptors participate in discontinuous cell-cell interactions concurrent with leukocyte tethering and rolling on endothelium, which, in consequence, leads to leukocyte penetration to lymphatic organs and generation of inflammation sites. Counter-receptors are glycoproteins in which carbohydrate units, the direct selectin ligands, are built into the polypeptide framework. In this review, the distribution, structure and function of the main ligands and counter-receptors for P-, L- and E-selectins known so far, have been discussed. The common biosynthetic pathway of sialyl-Lewis x and sulpho-sialyl-Lewis x determinants of selectin ligands has been described.

Electron microscopic and immunohistochemical verification of diagnosis in two archival cases recognized as encephalitis necroticans acuta (ENA) on routine examinations.

Two archival cases diagnosed 20 years ago on routine neuropathological methods as Encephalitis Necroticans Acuta (ENA) were investigated in EM and by immunohistochemical methods. The previous diagnosis was confirmed only in one case because Herpes simplex virus was found. In the second case the intracellular inclusions visible in ME corresponded to Measles Virus thus previous diagnosis was changed to SSPE.

The comparison of microglia maturation in CNS of normal human fetuses and fetuses with Down's syndrome.

The study was performed on the tissues derived from the central nervous system (CNS) of 72 normal human fetuses between 8 and 22 week of gestation (GW) and 30 fetuses with genetically confirmed Down's syndrome between 17 and 22 GW. Histochemical, immunocytochemical and ultrastructural examinations of microglial cells in frontal lobe, mesencephalon and cerebellum were carried out. A quantitative evaluation of developing microglia was performed in comparison with astroglial cells by counting the mean number of cells per 1 mm2. The study indicated that microglial cells emerge at the same time in all structures under study, both in normal fetuses and in those with Down's syndrome. It was also found that ameboid microglia (AM) and ramified microglia (RM) emerge at the same time and show the same morphological structure in both groups of fetuses. It was revealed that in the CNS of fetuses with Down's syndrome, the number of ramified microglial cells increased significantly as compared with in normal fetuses. Astroglial cells outnumbered microglial cells in the normal fetal development. Due to the enhanced number of RM cells in the CNS of fetuses with Down's syndrome the quantitative difference between these cells obliterated, and microglial cells in the frontal lobe cortex even outnumbered astroglial cells.

Ultrastructural changes in substantia nigra and striatum observed on a mouse model of Parkinson's disease induced by MPTP administration.

The study was carried out on a mouse model of Parkinson's disease induced by the administration of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-neurotoxin which damages dopaminergic neurons in substantia nigra. Occurrence of dark degenerated neurons was the most prominent ultrastructural change. They were characterized by the progressive condensation of cytoplasm and nuclear chromatin as well as by the light mitochondria and dilated cisternae of Golgi apparatus. Dark degenerated neurons were found particularly often on the 7th day after toxication, however on the last day of the observation, only a few neurons showed the features of dark degeneration. It is likely that degenerative changes led to death in the part of neurons only.

Microglia and neuritic plaques in familial Alzheimer's disease induced by a new mutation of presenilin-1 gene. An ultrastructural study.

The results of the ultrastructural study of the brains of two sisters with familial Alzheimer's disease (AD) induced by a new mutation of presenilin-1 (PS-1) gene who died at the young age (35 and 37 years) are presented. In both cases, the changes typical of AD with particularly large number of neuritic plaques (NPs) were found. Microglial cells were located between amyloid core and neurites. At the ultrastructural level, the content of microglial cytoplasm was differentiated (amyloid fibrils or/and phagocytic bodies). This may suggest that microglial cells participate in forming of amyloid fibrils and/or phagocytosis of amyloid.

Border zone neovascularization in cerebral ischemic infarct.

Immunocytochemical and quantitative studies on vascular reaction (angiogenesis) in cortical border zone of infarct were undertaken. Intensity and temporal profile of angiogenesis was assessed in 60 patients aged between 48 and 69 (younger group), and between 70 and 92 (older group), with cerebral infarct in the area of middle cerebral artery vascularization, who died during the first six weeks following the stroke. We have found that angiogenesis was a multistage process in which four stages were distinguished: phase of primary activation of endothelial cells, two consecutive phases of active angiogenesis and final phase of only sporadic proliferation of vessels. The distinction of phases in a multiphase angiogenic cascade helped us to evaluate the correlation with survival time and the age of patients. The most pronounced intensification of angiogenesis and increased density of CD 31 positive capillaries in penumbra were observed in the second phase, especially in younger patients. The duration of the penumbral neovascularization decreased in the older age patient. Our results indicate that sprouting angiogenesis is a quantitatively significant source of vessels in the cerebral infarct border zone. However, non-therapeutically stimulated angiogenesis developed only 3-4 days after the stroke, that is beyond the period of reversible changes in ischemic penumbra recognized as a "therapeutical window" in the human brain. The angiogenic therapy opens a new way towards the revascularization of ischemic brain infarct.

Microglial and astrocytic involvement in a murine model of Parkinson's disease induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP).

We have studied the reaction of glial cells in mice treated with an intraperitoneal administration of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), a selective neurotoxin of dopaminergic nigrostriatal neurons. Signs of injury to the dopaminergic neurons started on the 1st day after MPTP administration and progressed up to the end of the observation time (21st day). A transient microglial reaction was demonstrated from the 1st until the 14th day in the substantia nigra (SN) and striatum. The cells showed an increase in number and changes in morphology. At the ultrastructural level, signs of phagocytosis and features indicating the secretion of biologically active substances were observed. Astrocytosis followed the microglial reaction by one day and was noticed until the end of the observation time. Interleukin-6 immunoreactivity was observed within microglia and astrocytes in the SN on days 2 and 3. There were no signs of depletion of dopaminergic cells or glial activation after the administration of MPTP simultaneously with pargyline, an inhibitor of monoamine oxidase-B that prevents MPTP neurotoxicity. Our study indicates that microglia and astrocytes are involved in the pathological process in the nigrostriatal system following MPTP administration. MPTP alone is not responsible for glial cell activation but its metabolite MPP+ and/or agents released by injured neurons may participate in this process.

[Modern views on the pathogenesis of Wilson's disease]. / Aktualne poglady na patogeneze choroby Wilsona.

Wilson's disease is a rare, multiorganic genetically coded disorder, induced by impaired copper transport. The recent identification of the disease gene and the discovery of gene product--copper transporting P-type ATPase that is integrate membranous protein has contributed greatly to better understanding of the pathogenesis. This protein is probably essential for incorporation of copper into ceruloplasmin and for its biliary excretion. Multiple mutations of Wilson's disease gene are responsible for the excess of so called "free" copper which is toxic to tissues. Copper toxicity involves first of all, functional disorders of many enzymatic systems, particularly those of respiratory chain enzymes. In the central nervous system, a special kind of copper toxicity is medicated by astroglia, so that a direct, harmful effect of both copper and ammonia on the brain is observed. The authors present a current review on biochemical mechanisms of copper toxicity and physiopathological significance of the CNS astroglia in Wilson's disease.

Progressive multifocal leukoencephalopathy (PML) and cerebral toxoplasmosis in an adult patient, with no symptoms of underlying immunosuppressing illness.

We present a case of the coincidence of progressive multifocal leukoencephalopathy (PML) and central nervous system (CNS) toxoplasmosis in an adult patient, without a detectable cause of cell-mediated immunity impairment. The proper diagnosis was made postmortem on the basis of histological changes typical of both pathological processes. PML was characterized by the presence of subcortical focal demyelination, containing enlarged, densely basophilic oligodendrocyte nuclei, often with intranuclear inclusion, and bizarre astrocytes, mimicking neoplastic cells. PML was confirmed by detecting numerous papova virus particles in oligo- and astroglial nuclei by thin-section electron microscopy. Cerebral toxoplasmosis was characterized by the presence of multiple well-circumscribed necrotizing abscesses. Numerous Toxoplasma gondii (T. gondii) cysts and free, non-encysted protozoan parasites were found among the inflammatory infiltrates. The diagnosis of cerebral toxoplasmosis was further confirmed by immunocytochemistry. In order to detect putative immunosuppressive background underlying both pathological processes, HIV infection was taken into consideration, however, no histopathological changes indicative of AIDS either in the CNS or in the peripheral organs were eventually found. Moreover no HIV provirus genome was identified in the formalin-fixed, paraffin embedded brain tissue by the polymerase chain reaction (PCR). Current view on the selected aspects of the pathogenesis of both disorders were discussed.

[Morphologic analysis of of microglia in astrocytomas]. / Analiza morfologiczna mikrogleju w guzach pochodzenia astrocytarnego.

Forty human primary brain astrocytoma tumours (anaplastic and non anaplastic) were subjected to correlative light and electron microscopic studies of microglia in tumour tissue and in its surroundings. It was found that a great number of microglia cells were present in the all types of astrocytomas. In the non anaplastic tumours (fibrillary, protoplasmic, gemistocytic) ramified microglia mostly was observed. In glioblastomas and anaplastic astrocytomas the greatest number of ameboid microglia and very rarely ramified microglial cells were found. It is suggested that the differences between the various kinds of astrocytomas determine the difference in the type of microglial reaction. It is assumed that this might be caused by the differences in secreting some factors by these tumour astrocytes.

Quantitative study of pathological forms of astroglia in Wilson's disease.

The number and distribution of Alzheimer type I and II cells (Alz I and II) as well as Opalski cells (Opl) were estimated in chosen brain regions of seven autopsied cases with Wilson's disease (WD). The authors of this study focused especially on the question whether the kind and intensity of astrocytes is linked to the clinical form of the disease and to the intensity of brain damage. Alz I and II cells were counted by the use of the HE method, whereas the number of Opl cells was calculated using the PAS method. The study revealed that among the three types of cells the number of Alz II cells was the highest and that of Alz I cells was the lowest. The distributional patterns of these three types of cells were different. Alz I cells were found mainly in the putamen. Alz II cells were observed diffusely, although they occurred in different numbers in the whole brain. The highest number of Opl cells was found in the putamen. Alz I cells were found only in the neurological type of the disease. The highest number of Alz II cells was seen in the hepatic type of the disease, whereas the highest number of Opl cells was observed in the neurological "mixed" forms. Moreover, intensity of tissue damage with presence of necroses was greatest in neurological WD. In the hepatic type dispersed areas of status spongiosus were observed, without presence of necroses. Our study revealed that the type and amount of the pathological astroglia may correlate both with the clinical form of WD and intensity of tissue damage. Alz II cells seem to be a characteristic feature of the early stage of astroglial response to the pathogenic factor whereas Alz I and Opl cells occur in WD only in the advanced stage of tissue damage.

Adult schizophrenic-like variant of adrenoleukodystrophy.

A 35-year-old man died after 30 months following the onset of the disease. There was a history of changes in his mental condition, including disturbances of behavior as well as the evidence of progressing dementia. The patient revealed gait disturbances and finally became bed ridden. Bizarre behavior and changes of mood with concurrent growing irritability which predominated during the course of disease, may explain the initial diagnosis of schizophrenia. Then cerebellar and spastic movement disorders leading to paraparesis and sphincters disturbances developed. Clinical symptoms of adrenal failure were not found apart from episodes of arterial pressure fall. After two years a magnetic resonance imaging (MRI) revealed an extensive diffuse demyelinative process in white matter of cerebral and cerebellar hemispheres. Activity of lysosomal enzymes was normal. A general autopsy revealed atrophy of adrenal cortex and the presence of ballooned cells with striated cytoplasm in the reticular and fasciculate zones. Neuropathological examination revealed an extensive demyelination of white matter in cerebral and cerebellar hemispheres and of the long paths of the brain stem, corresponding to changes in MRI examination. Within demyelination areas damage of axons and diffuse cellular and fibrous gliosis were found as well as perivascular lymphocytic infiltrations with the presence of strong PAS (+) and Sudan (+) macrophages. Immunocytochemical reactions with HAM-56 and RCA1 in macrophages were positive. Electron microscopy examination revealed lamellar inclusions in cytoplasm of macrophages. Similar structures were present in the lysosomes of astrocytes. Morphological examination of adrenal glands as well as morphological and ultrastructural study of the brain allowed us to diagnose the cerebral form of adrenoleukodystrophy (ALD). Topography and character of the brain changes seems to be in keeping with a rare schizophrenic-like variant of ALD with progressive dementia. Abnormal plasma profile and increased VLCFA concentration in the patient's 13-year-old daughter confirm the ALD diagnosis.