Tomaso Scaravilli

Programmed cell death in brains of HIV-1-positive AIDS and pre-AIDS patients

Neuropathological studies have revealed that the brains of HIV-1-infected AIDS patients show the typical encephalitis and, in addition, neuronal loss. More recently, this neuronal cell loss has been thought to take place via programmed cell death (apoptosis) which has been demonstrated by an in situ end labelling (ISEL) technique. In this study 54 brains of HIV-1-positive patients were investigated by the ISEL technique to investigate whether apoptosis is also present in the brains of patients at the asymptomatic stage. Of these, 10 patients suffered from HIV encephalitis (HIVE), 8 had AIDS without neuropathological disorders and 36 were HIV-1-positive pre-AIDS patients. Apoptotic cells were detected in 6 of the 10 HIVE, 1 of the 8 AIDS without central nervous system (CNS) disease and 4 of the 36 asymptomatic individuals. A difference seen between the AIDS and pre-AIDS cases was that, in the latter, apoptotic cells were found in the white matter in all 4 cases, while only 2 of these 4 showed apoptotic neurons. The presence of apoptotic cells in a number, albeit small, of brains of HIV-1-positive pre-AIDS individuals, combined with abnormalities described previously in the same group of patients gives further support to the opinion that brain damage already occurs during the early stages of HIV infection.

Sub-acute cerebellar degeneration with anti-Yo autoantibodies : immunohistochemical analysis of the immune reaction in the central nervous system

B. Giometto, G. C. Marchiori, P. Nicolao, T. Scaravilli, A. Lion, P. G. Bardin and B. Tavolato (1997) Neuropathology and Applied Neurobiology, 23, 468–474

Investigation on the expression of major histocompatibility complex class II and cytokines and detection of HIV-1 DNA within brains of asymptomatic and symptomatic HIV-1-positive patients

Abstract Among the various mechanisms proposed to explain the pathogenesis of cerebral lesions in human immunodeficiency virus (HIV)-induced encephalitis, a cytokine-mediated action has found most favour. Indeed, elevated expression of cytokines such as interleukin (IL)-1 and tumour necrosis factor-α (TNF-α), thought to be neurotoxic, has been found in AIDS patients. As a previous study had demonstrated the presence of HIV proviral DNA in brain tissue of a number of HIV-positive non-AIDS patients, we undertook this present investigation using morphological, immunohistochemistry (IHC) and polymerase chain reaction (PCR) methods to detect the expression of major histocompatibility complex (MHC) class II molecules, the presence of HIV-1 proviral DNA and of the cytokines TNF-α, IL-1α, IL-4 and IL-6 in brains of the same group of individuals. The study included brains of 36 asymptomatic HIV-1 positive patients and the results were compared with those of AIDS patients either affected by HIV encephalitis (n = 8) or exempt from any neuropathological changes (n = 10) as well as of normal controls (n = 5). Results show that: HIV proviral DNA could be detected by PCR in 17 out of the 36 brains from HIV-positive pre-AIDS cases; most (15 of 17) of PCR-positive brains showed minimal to severe expression of MHC class II antigen; and cytokines could be detected predominantly within white matter even at this early stage. The data demonstrated that the state of immune activation described in AIDS is already present at the pre-AIDS stage and suggest that the presence of cytokines may already trigger the cascade of events leading to brain damage.

Anti-gabaergic neuron autoantibodies in a patient with stiff-man syndrome and ataxia

We describe a patient with autoimmune insulin-dependent diabetes whose original symptoms of trunk stiffness and rigidity of the abdomen were followed three years later by a pancerebellar syndrome. An autoantibody (autoAb) against GABAergic neurons was found in the patients serum and cerebrospinal fluid (CSF); on Western blot, this autoAb recognized a 64-kDa antigen of cerebellar protein. The detection of this antibody in a case with ataxia suggests that a spectrum of different neurological diseases may be observed in patients harbouring anti-GABAergic neuron autoAb and supports the concept that factors other than autoAb contribute to the clinical presentation of these disorders.

Neuronal loss in Onuf's nucleus in three patients with progressive supranuclear palsy

Disorders of micturition have been reported only sporadically in patients with progressive supranuclear palsy (PSP). We report the results of a clinicopathological study of 3 patients with a definite diagnosis of PSP at various stages of their illness with sphincter abnormalities. Electromyography of the sphincter muscles was performed in all 3 patients and was abnormal in 2. Morphological and morphometric evaluation of Onufs nucleus in the sacral spinal cord, which is involved in sphincter control, showed severe cell loss, presence of neurofibrillary tangles, neuropil threads, and glial inclusions. We conclude that bladder dysfunction and abnormal sphincter electromyographic results are due to pathological changes in Onufs nucleus, and we propose that sphincter abnormalities should be included in the list of possible symptoms of PSP. Ann Neurol 2000;48:97–101

Detection of paraneoplastic anti-neuronal autoantibodies on paraffin-embedded tissues

Abstract Anti-neuron-specific autoantibodies are widely recognised as useful, though non-specific, diagnostic markers of paraneoplastic neurological disorders. However, controversies on the best way to detect these autoantibodies have recently arisen, and the use of different procedures for their detection by different laboratories has made results difficult to compare. The aim of this study was to adapt the existing immunohistochemical techniques used for the detection of anit-neuron autoantibodies to improve their visualisation and to facilitate a wide application of these procedures.Sera and cerebrospinal fluid (CSF) were obtained from 15 patients known to carry paraneoplastic anti-neuronal autoantibodies; in addition, one serum with “atypical” anti-neuron autoantibody and 18 control sera were studied. Paraformaldehyde-fixed, paraffin-embedded rat nervous tissue and formalin-fixed, paraffin-embedded human nervous tissue treated in a microwave oven were used as substrate; the reactions were developed by immunoperoxidase methods.At the dilutions used for diagnostic purposes, all the sera and CSFs showed staining whose intensity and specificity was comparable to that obtained using frozen tissue; the end-point dilutions were, however, reduced. The atypical pattern of staining of one serum was confirmed and better emphasised using these procedures; all control sera and CSFs were negative. The morphology was improved by the use of paraffin-embedded tissues; moreover, the results obtained are permanent because of peroxidase staining, which makes it possible to use them as standards for further investigations and for comparison between different laboratories. The convenience of using paraffin-embedded material could facilitate a wide application of these procedures in clinical neurology.

The arginine growth hormone stimulation test in bradykinetic-rigid parkinsonisms.

The arginine growth hormone (GH) stimulation test differentiates the Parkinsonian variant of multiple system atrophy (MSA‐P) from idiopathic Parkinsons disease (PD). Our aim was to evaluate the accuracy of the arginine GH stimulation test in distinguishing between PSP, MSA‐P, and PD. We measured the GH response to arginine in serum samples of 26 MSA‐P, 23 PSP, and 26 PD patients, and in 80 healthy controls. We used ANOVA followed by the Bonferroni test to compare GH values and peaks among groups. We used receiver operating characteristic curve analysis to establish the arginine cut‐off level that best differentiated between MSA‐P, PSP, and PD. The GH peak was significantly lower (P < 0.01) in MSA‐P (1.46 ± 0.29 μg/L) than in both PD (8.74 ± 0.98 μg/L) and PSP (6.64 ± 0.82 μg/L) patients, and controls (8.59 ± 0.44 μg/L). Growth hormone peaked later in PSP patients than in PD patients and controls. At a cut‐off level of 4 μg/L, arginine test distinguished MSA‐P from PD with a sensitivity of 92% and a specificity of 96%, and MSA‐P from PSP with a sensitivity of 78% and a specificity of 96%. The GH response to arginine differentiates MSA‐P from PD and PSP with a good diagnostic accuracy. The neuroendocrine response to arginine of PSP patients differed from that of MSA‐P patients, but was not identical to that of normal controls and PD patients. Our results suggest that the impairment of the central mechanisms modulating GH release differs between PSP and MSA‐P.

Immunological Mechanisms of Paraneoplastic Nervous System Diseases

The term “paraneoplastic neurological diseases” (PND) (also known as “remote neurological effect of cancer”) encompasses a wide group of disorders associated with systemic malignancies which, in order to fulfil the criteria for the definition of this disorder, must not directly invade, compress or metastasise to the nervous system.

Reply to Dalmau

As stated quite correctly by Dr. Dalmau, reports on the detection of antineuronal antibodies in paraneoplastic disorders using paraffin-embedded tissues have indeed appeared in the literature. What he does not mention, however, is that these reports are sometimes conflicting; in fact Dropcho [2] reported that ANNA-1 antibodies could not be detected on paraffin-embedded material. Moreover, Dalmau and Rosenfeld themselves [1] reported in a methodological paper that ‘some epitopes are preserved in formalin-fixed paraffin-embedded tissue’. Unlike previous works, our study [3] represents the first systematic approach to the detection of paraneoplastic antineuronal antibodies in paraffin-embedded specimens. We agree with Dr. Dalmau that using paraffin-embedded material “we were still unable to distinguish between different autoantibodies with similar pattern of staining” and that Western blot analysis, using protein extracts, remains an essential procedure in these cases. We state this in our discussion. Although frozen sections using the peroxidase technique also provide permanent reactivities, we recommend the use of paraffin-embedded material in routine laboratory analyses as this procedure could allow a wide search for paraneoplastic antineuronal antibodies. Further screening and characterization of new antibodies would instead continue to be carried out by Western blot analysis and immunohistochemistry in frozen tissue in dedicated reference laboratories as recommended by the Guidelines recently issued. [4].