Variable expression of mitochondrial complex IV in the course of nigral intracellular accumulation of α-synuclein

IntroductionParkinson's disease (PD) is a neurodegenerative disease characterized by the deposition of disease-associated α-synuclein, which is thought to follow a sequential distribution in the human brain. Accordingly, α-Synuclein pathology affects the substantia nigra (SN) only in Braak stage 3 out of 6. Moreover, intracellular accumulation of α-synuclein follows maturation from non-ubiquitinated (p62 negative) to ubiquitinated (p62 positive) forms (Lewy bodies). Mitochondrial dysfunction is thought to be a central player in the pathogenesis of PD. It is not clear whether the nigral neurons already show mitochondrial alterations in stages preceding the deposition of α-synuclein in the SN, and how deposition of pre-aggregates or ubiquitinated mature inclusions relate to this.MethodsUsing cell-based morphometric immunohistochemistry we evaluated the volume density of mitochondrial complex-IV (COX-IV) immunoreactivity in SN neurons lacking or showing α-synuclein deposits in non-diseased individuals and those with Lewy body pathology Braak stage <3 lacking nigral α-synuclein pathology and Braak stage >3 with prominent nigral α-synuclein deposition.ResultsIncreased volume density of COX-IV immunoreactivity appears before detectable pathological α-synuclein in nigral neurons. The volume density decreases significantly as pathological pre-aggregates of α-synuclein accumulates in the neurons and remains at a low level in neurons with p62 positive Lewy bodies.ConclusionsCOX-IV expression shows a change before and during accumulation of α-synuclein in the SN underpinning the role of early mitochondrio protective therapy strategies in PD.     

Biochemical and pathological correlates of cognitive and behavioural change in DLB/PDD

Dementia with Lewy bodies (DLB) and Parkinson’s disease dementia (PDD) are second only to Alzheimer’s disease (AD) in frequency. In particular it is evident that up to 80% of people with PD will develop dementia towards the end of their life. While the neurobiology of movement disorder has been well studied in PD, much less attention has been given to mechanisms underlying the cognitive and behavioural symptoms associated with DLB and PDD. To date, the best correlate of cognitive impairment appears to be cortical Lewy bodies; however, new emphasis has been placed on small aggregates of synuclein. Furthermore, very few studies have attempted to investigate the neurochemical correlates of behavioural disorders in DLB/PDD and whether these are similar or distinct from AD. Aggregated α-synuclein forms the core component of Lewy bodies, a major pathological feature of Parkinson’s-related conditions. The 26S proteasome is an ATP-dependent protease that catalyses the breakdown of α-synuclein. Previous studies have implicated alterations in the proteasome in PD. Furthermore, proteasome inhibitors have been reported to induce α-synuclein aggregation and Lewy body-like inclusions, resulting in neuronal loss both in vitro and in vivo. Our preliminary results indicate that selective alterations in the expression of proteosome sub-units are a feature of both DLB and PDD, while changes in activity are restricted to PDD. Depression is a common symptom in DLB/PDD, yet the evidence base for standard treatment with SSRIs is limited. In contrast to previous studies of AD, our results indicate that there is no association between depression and the 5-HT transporter, while there was a significant increase in the number of 5-HT1A receptors in those DLB/PDD patients with depression. These data may provide an insight into the lack of success of current treatments and suggest alternative approaches.

     

Molecular Imaging and Updated Diagnostic Criteria in Lewy Body Dementias

Purpose of Review

The aims of the study were to review recent advances in molecular imaging in the Lewy body dementias (LBD) and determine if these may support the clinical but contested temporal profile distinction between Parkinson disease (PD) with dementia (PDD) versus dementia with Lewy bodies (DLB).

Recent Findings

There do not appear to be major regional cerebral metabolic or neurotransmitter distinctions between PDD and DLB. However, recent studies highlight the relative discriminating roles of Alzheimer proteinopathies. PDD patients have lower cortical β-amyloid deposition than DLB. Preliminary tau PET studies suggest a gradient of increasing tau binding from cognitively normal PD (absent to lowest) to cognitively impaired PD (low) to DLB (intermediate) to Alzheimer disease (AD; highest). However, tau binding in DLB, including the medial temporal lobe, is substantially lower than in AD.

Summary

Alzheimer-type proteinopathies appear to be more common in DLB compared to PDD with relative but no absolute differences. Given the spectrum of overlapping pathologies, future α-synuclein ligands are expected to have the best potential to distinguish the LBD from pure AD.

     

Sonographic discrimination of dementia with Lewy bodies and Parkinson's disease with dementia

Objective To study the use of transcranial sonography (TCS) in discriminating between patients with dementia with Lewy bodies (DLB) and Parkinson's disease with dementia (PDD). Methods Fourteen patients with DLB, 31 with PDD and 73 with PD without dementia (PDnD) were studied with TCS. Results All assessable patients with DLB, 97% with PDD, and 94% with PDnD showed at least unilateral hyperechogenicity of substantia nigra (SN). However, bilateral marked SN hyperechogenicity was present in 80% of DLB patients but only in one third of PDD and PDnD patients, and was associated with younger age at disease onset in PD but not in DLB. An asymmetry index ≥ 1.15 of bilateral SN echogenic sizes, estimated by division of larger size by smaller size, was found in 69% of PDD patients but only 20% of DLB patients. Combination of SN echogenic sizes, asymmetry indices and onset age discriminated PDD from DLB with a sensitivity of 96%, a specificity of 80% and a positive predictive value of 93%. TCS of brainstem raphe, thalami, lenticular nuclei, caudate nuclei and ventricle widths did not discriminate between DLB and PDD. Compared with PDnD patients, DLB and PDD patients exhibited significantly larger widths of third ventricle and of frontal horns. In PDD patients, scores on the Unified Parkinson's Disease Rating Scale correlated with widths of third ventricle and of frontal horns. Conclusions SN hyperechogenicity is typical for PDD and DLB.However, size, asymmetry and relation of SN hyperechogenicity to age at disease onset discriminate PDD from DLB.     

Cognitive status correlates with white matter alteration in Parkinson's disease

Patients with Parkinson's disease (PD) can develop mild cognitive impairment (PD-MCI), frequently progressing to dementia (PDD). Here, we aimed to elucidate the relationship between white matter alteration and cognitive status in PD and dementia with Lewy bodies (DLB) by using diffusion tensor imaging. We also compared the progression patterns of white and gray matter and the cerebral perfusion. We enrolled patients with PD cognitively normal (PD-CogNL, n = 32), PD-MCI (n = 28), PDD (n = 25), DLB (n = 29), and age- and sex-matched healthy control subjects (n = 40). Fractional anisotropy (FA) map of a patient group was compared with that of control subjects by using tract-based spatial statistics. For the patient cohort, intersubject voxel-wise correlation was performed between FA values and Mini-Mental Status Examination (MMSE) scores. We also evaluated the gray matter and the cerebral perfusion by conducting a voxel-based analysis. There were significantly decreased FA values in many major tracts in patients with PD-MCI, PDD, and DLB, but not in PD-CogNL, compared with control subjects. FA values in the certain white matter areas, particularly the bilateral parietal white matter, were significantly correlated with MMSE scores in patients with PD. Patients with PDD and DLB had diffuse gray matter atrophy. All patient groups had occipital and posterior parietal hypoperfusion when compared with control subjects. Our results suggest that white matter damage underlies cognitive impairment in PD, and cognitive impairment in PD progresses with functional alteration (hypoperfusion) followed by structural alterations in which white matter alteration precedes gray matter atrophy.     

Increased iron levels correlate with the selective nigral dopaminergic neuron degeneration in Parkinson’s disease

The staging of Lewy-related pathology in sporadic Parkinson’s disease (PD) reveals that many brain nuclei are affected in PD during different stages, except the ventral tegmental area (VTA), which is close related to the substantia nigra (SN) and enriched in dopamine (DA) neurons. Why DA neurons are selectively degenerated in the SN of PD is far from known. In the present study, we observed that the number of tyrosine hydroxylase immunoreactive neurons decreased and iron-staining positive cells increased in the SN, but not in the VTA, in the chronic 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated PD mice. Increased expression of divalent metal transporter 1 and decreased expression of ferroportin 1 might associate with this increased nigral iron levels. Lipofuscin granular aggregations and upregulation of alpha-synuclein (α-synuclein) were also observed only in the SN. These results suggest that increased iron levels associate with the selective degeneration of DA neurons in the SN. The intracellular regulation mechanisms for the iron transporters may be different in the SN and VTA under the same conditions. Moreover, the lipofuscin granular aggregations and upregulation of α-synuclein were also involved in the selective degeneration of dopaminergic neurons in the SN.     

The synaptic pathology of α-synuclein aggregation in dementia with Lewy bodies, Parkinson’s disease and Parkinson’s disease dementia

Parkinson’s disease (PD) and dementia with Lewy bodies (DLB) are usually associated with loss of dopaminergic neurons. Loss of substantia nigra neurons and presence of Lewy body inclusions in some of the remaining neurons are the hallmark pathology seen in the final stages of the disease. Attempts to correlate Lewy body pathology to either cell death or severity of clinical symptoms, however, have not been successful. While the pathophysiology of the neurodegenerative process can hardly be explained by Lewy bodies, the clinical symptoms do indicate a degenerative process located at the presynapse resulting in a neurotransmitter deficiency. Recently it was shown that 90% or even more of α-synuclein aggregates in DLB cases were located at the presynapses in the form of very small deposits. In parallel, dendritic spines are retracted, whereas the presynapses are relatively preserved, suggesting a neurotransmitter deprivation. The same α-synuclein pathology can be demonstrated for PD. These findings give rise to the notion that not cell death but rather α-synuclein aggregate-related synaptic dysfunction causes the neurodegeneration. This opens new perspectives for understanding PD and DLB. If presynaptic α-synuclein aggregation, not neuronal loss, is the key issue of the neurodegenerative process, then PD and DLB may eventually be treatable in the future. The disease may progress via trans-synaptical spread, suggesting that stem cell transplants are of limited use. Future therapies may focus on the regeneration of synapses.     

Nuclear factor kappa-B p50 and p65 subunits expression in dementia with Lewy bodies

Dementia with Lewy bodies (DLB) is the second most common cause of neurodegenerative dementia after Alzheimer's disease (AD). Parkinsonism in DLB is mainly caused by neuronal loss with Lewy bodies (LBs) in the substantia nigra, thereby inducing degeneration of the nigrostriatal dopaminergic pathway similar to that in Parkinson's disease (PD). To clarify the pathogenesis of DLB, it is important to investigate the mechanisms involved in the degenerative process of LB-bearing neurones. Several reports suggest a role for nuclear factor kappa-B (NFkappaB) in the manifestation of neurodegenerative conditions such as AD and PD. The aim of the present study was to investigate whether NFkappaB subunits are involved in the pathogenesis of neurodegeneration in DLB by measuring tyrosine hydroxylase (TH), NFkappaB p65 and p50 protein expression in frontal cortex and substantia nigra pars compacta of DLB and control human brains. An increase, although not statistically significant, in nigral TH expression in DLB cases was observed. There were no differences in the cortical and nigral expression levels of NFkappaB p65 subunit between control and DLB cases. Western blots of the frontal cortex showed no differences in the expression levels of NFkappaB p50 subunit. However, NFkappaB p50 levels were significantly decreased (P < 0.05) in the pars compacta of the substantia nigra in the DLB cases in comparison with controls. The decrease in the expression of the p50 subunit in the substantia nigra of DLB cases achieved in the present study may increase the vulnerability of the dopaminergic neurones to a possible neurotoxic effect of p65 subunit. Thus, normal levels of NFkappaB p65 might be toxic in neurones with a low expression of the NFkappaB p50 subunit.     

DLB and PDD boundary issues: diagnosis, treatment, molecular pathology, and biomarkers

For more than a decade, researchers have refined criteria for the diagnosis of dementia with Lewy bodies (DLB) and at the same time have recognized that cognitive impairment and dementia occur commonly in patients with Parkinson disease (PD). This article addresses the relationship between DLB, PD, and PD with dementia (PDD). The authors agreed to endorse "Lewy body disorders" as the umbrella term for PD, PDD, and DLB, to promote the continued practical use of these three clinical terms, and to encourage efforts at drug discovery that target the mechanisms of neurodegeneration shared by these disorders of alpha-synuclein metabolism. We concluded that the differing temporal sequence of symptoms and clinical features of PDD and DLB justify distinguishing these disorders. However, a single Lewy body disorder model was deemed more useful for studying disease pathogenesis because abnormal neuronal alpha-synuclein inclusions are the defining pathologic process common to both PDD and DLB. There was consensus that improved understanding of the pathobiology of alpha-synuclein should be a major focus of efforts to develop new disease-modifying therapies for these disorders. The group agreed on four important priorities: 1) continued communication between experts who specialize in PDD or DLB; 2) initiation of prospective validation studies with autopsy confirmation of DLB and PDD; 3) development of practical biomarkers for alpha-synuclein pathologies; 4) accelerated efforts to find more effective treatments for these diseases.     

Fulminant Lewy body disease.

The clinical distinction between Parkinson's disease (PD) with dementia (PDD) and dementia with Lewy bodies (DLB) is challenged by most neuropathological studies showing nearly identical changes in both conditions. We report an unusual case of PD evolving into a rapidly progressive dementia leading to death within 3 months that showed nearly all clinical features of DLB. At autopsy, numerous Lewy bodies and Lewy neurites were found in several areas of the brainstem, the limbic system, and the neocortex, consistent with pure DLB. This case demonstrates that Lewy body disease may exhibit a dramatic course without any coexisting pathology and exemplifies that PD, PDD, and DLB may sometimes represent sequential, yet overlapping, phenotypes of a same clinicopathological entity.     

Screening for the LRRK2 G2019S and codon-1441 mutations in a pathological series of parkinsonian syndromes and frontotemporal lobar degeneration

BACKGROUND: The neuropathology associated with LRRK2 mutations is heterogeneous but Lewy body (LB) type pathology is the most common substrate encountered. While the prevalence of LRRK2 mutations has been extensively studied in Parkinson's disease (PD), limited information is available on the frequency of LRRK2 mutations in dementia with Lewy bodies (DLB) and in other pathological conditions associated with these mutations, such as non-specific nigral degeneration without LB, tau-immunopositive neurofibrillary tangle pathology, and ubiquitin-positive neuronal inclusions resembling those observed in a subtype of frontotemporal lobar degeneration (FTLD-U). OBJECTIVE: To further investigate the neuropathology associated with LRRK2 mutations. METHODS: We have screened for the LRRK2 G2019S and codon-1441 (R1441G/C/H) mutations in 110 cases from a Spanish Brain Bank, which include: 66 synucleinopathies (33 PD, 25 DLB and 8 multiple system atrophy cases), 29 tauopathies (21 progressive supranuclear palsy, 3 corticobasal degeneration and 5 tau-positive FTLD cases), 3 cases of non-specific nigral degeneration and 12 tau-negative FTLD (9 FTLD-U and 3 dementia lacking distinctive histology cases). RESULTS: The G2019S mutation was found in two cases: One case had a clinical and pathological diagnosis of PD and the other suffered from typical PD and on neuropathological examination had non-specific nigral degeneration without LB. A synonymous variant (R1441R; c.4323C>T) was detected in another PD case. CONCLUSIONS: In this brain bank-based series, LRRK2 G2019S mutation occurred in patients with parkinsonism associated with either typical brainstem LB pathology or non-specific nigral degeneration. LRRK2 mutations were not encountered in other neurodegenerative disorders associated with synuclein and tau deposition.     

Relationship between Parkinson disease with dementia and dementia with Lewy bodies

Parkinson disease (PD) and dementia with Lewy bodies (DLB) are considered Lewy body diseases (LBDs). To clarify the relation between PD with dementia (PDD) and DLB, 30 patients with LBD were divided into pathological subtypes according to the consensus guidelines for DLB. Patients with PDD showed neocortical and limbic type of LBD as well as patients with DLB. Dementia had not been noted in 2 patients with neocortical type. Our results indicate that PDD and DLB share a common pathological substrate and that the pathological subtypes of LBD show considerable overlap in clinical manifestations.     

The limbic and neocortical contribution of α-synuclein,tau, and amyloid β to disease duration in dementia with Lewy bodies

Introduction

We sought to assess the individual and combined contribution of limbic and neocortical α-synuclein, tau, and amyloid β (Aβ) to duration of illness in dementia with Lewy bodies (DLB).

Fragmentation of Golgi apparatus of nigral neurons with α-synuclein-positive inclusions in patients with Parkinson’s disease

We examined whether the Golgi apparatus (GA) is fragmented in nigral neurons in 18 cases with Parkinson’s disease (PD) and in 8 control cases. The nigral neurons in cases with PD showed various degrees of Lewy pathology with α-synuclein immunohistochemistry, and we divided the neurons into three subtypes according to differences in α-synuclein immunoreactivity: (1) neurons without pale bodies or Lewy bodies, (2) neurons with pale bodies, and (3) neurons with Lewy bodies. In controls, we did not observe fragmented GA in nigral neurons by immunocytochemistry with an anti-TGN46 antibody. In PD, the GA was fragmented in 3% of the nigral neurons without inclusions, and in 5% of the neurons with Lewy bodies. In contrast, fragmented GA was noted in 19% of the neurons containing pale bodies. Since pale bodies represent early stages in the development of brainstem Lewy bodies, our results suggest that the cytotoxicity of α-synuclein-positive aggregates is reduced in the process of Lewy body formation.     

Longitudinal study of cerebral blood flow SPECT in Parkinson's disease with dementia, and dementia with Lewy bodies

BACKGROUND: People with Parkinson's disease (PD) have an increased risk of developing dementia (PDD), which often has clinical features similar to dementia with Lewy bodies (DLB). Whilst perfusion studies have shown parieto-occipital hypoperfusion in DLB and PDD relative to controls, there have not been any longitudinal studies of perfusion changes in PDD and DLB. METHODS: In this study, we measured brain perfusion using Tc99m HMPAO SPECT over one year in 17 PDD, 18 DLB and 34 healthy subjects. We used SPM99 to compare perfusion changes in the two dementia groups against the control group. RESULTS: We did not see any reductions in perfusion in either of the dementia groups. However, in the DLB, but not PDD group, there was a significant increase in putamen perfusion relative to controls over the year. In both DLB and PDD groups, there was a correlation between striatal perfusion increase over the year, and worsening of parkinsonism. Perfusion changes were not secondary to changes in antiparkinsonian medication. CONCLUSION: The increase in striatal perfusion may be a compensatory change related to decreasing striatal dopaminergic input from the substantia nigra in PDD and DLB, consistent with the increased predominance of rigidity over tremor symptoms in these groups compared with non-demented PD.     

The pedunculopontine nucleus is related to visual hallucinations in Parkinson’s disease: preliminary results of a voxel-based morphometry study

Visual hallucinations (VH) are common in Parkinson’s disease (PD) and lead to a poor quality of life. For a long time, dopaminergic therapy was considered to be the most important risk factor for the development of VH in PD. Recently, the cholinergic system, including the pedunculopontine nucleus (PPN), has been implicated in the pathophysiology of VH. The aim of the present study was to investigate grey matter density of the PPN region and one of its projection areas, the thalamus. Thirteen non-demented PD patients with VH were compared to 16 non-demented PD patients without VH, 13 demented PD patients (PDD) with VH and 11 patients with dementia with Lewy bodies (DLB). Isotropic 3-D T1-weighted MRI images (3T) were analysed using voxel-based morphometry (VBM) with the PPN region and thalamus as ROIs. PD and PDD patients with VH showed grey matter reductions of the PPN region and the thalamus compared to PD patients without VH. VH in PD(D) patients are associated with atrophy of the PPN region and its thalamic target area, suggesting that a cholinergic deficit may be involved in the development of VH in PD(D).     

Cerebral amyloid angiopathy in Lewy body disease

Summary. While Alzheimer and Lewy body pathologies are discussed as major substrates of dementia in Parkinson’s disease (PD/Lewy body disease of brainstem type), the incidence and impact of cerebral amyloid angiopathy (CAA) and its association with cognitive decline in PD and dementia with Lewy bodies (DLB) are unknown. The severity of CAA and other Alzheimer lesions were assessed in 68 cases of autopsy-confirmed PD, 32 of them with dementia (PDD), and in 20 cases of DLB. PDD patients were significantly older than those without dementia (mean age 84.5 vs 77.6 years; p < 0.01), the age of DLB patients was in between both groups (mean 80.0 years), while duration of disease was DLB < PDD < PD (mean 6.5 vs 8.5 and 14.3 years). PDD patients had a significantly higher neuritic Braak stage (mean 4.2 vs 2.4, p < 0.01), significantly higher cortical amyloid β (Aβ) load, capillary cerebral amyloid angiopathy (CapCAA) and generalized CAA than those without dementia (mild CapCAA in 22% vs moderate to severe CapCAA in 87%; mild generalized CAA in 5.5% vs moderate to severe generalized CAA in 82%). Mean PD stage was higher in both DLB and PDD than in PD (mean 5.2 vs 4.5 and 4.0, respectively): Mean neuritic Braak stage in DLB was 3.4, severe Aβ plaque load was seen in 95%, moderate to severe CapCAA in 90% and mild to severe generalized CAA in 70%. This and other recent studies imply an association of CAA with cognitive decline in both PD/PDD and DLB, particularly in cases with concomitant AD-type pathology. Correspondence: Kurt A. Jellinger, Institute of Clinical Neurobiology, Kenyongasse 18, 1070 Vienna, Austria     

Neuropathology of Parkinson's disease dementia and dementia with Lewy bodies with reference to striatal pathology

Dementia is relatively common in Parkinson's Disease (PD). When dementia occurs in the setting of PD, it is referred to as Parkinson's disease dementia (PDD), which is distinguished from the clinical syndrome in which dementia precedes extrapyramidal features, dementia with Lewy bodies (DLB). In this report, the neuropathology of PDD and DLB is reviewed and preliminary findings are reported on striatal pathology in 28 brains, including 7 PD, 7 PDD and 14 DLB. Sections of putamen immunostained for a-synuclein and investigated with image analysis show that striatal pathology is common and that both cortical and striatal a-synuclein pathology is greater in PDD and DLB than PD. Most cases of PDD and DLB have Alzheimer-type pathology, particularly amyloid plaques, which may act in an additive or synergistic manner with a-synuclein pathology. There are few pathologic differences between PDD and DLB, despite differences in their clinical course.     

Braak's hypothesis and non-motor symptoms of Parkinson disease

In this review, we discuss dementia, depression, olfactory disturbance, sleep disorders and autonomic dysfunction as nonmotor symptoms of Parkinson disease (PD). PD with dementia (PDD) is defined as onset of dementia more than 1 year after the onset of parkinsonism. If dementia precedes or occurs less than 1 year after the onset of parkinsonism, a diagnosis of dementia with Lewy bodies (DLB) is made. There is essentially no difference in the pathology of PDD and DLB at autopsy, indicating that Braak's hypothesis, which is extracted from PD/PDD and excluding DLB, may be bias. REM-related behavioral disorder (RBD) or depression, the main locus of which is the brain stem, could precede or occur after the onset of PD or DLB, indicating a descending and ascending path of Lewy body (LB) pathology. A disturbance in olfaction usually precedes the onset of PD. Recent data indicate that severe olfactory dysfunction in PD is an indication of a high probability of mental decline. These clinical observations and our pathological reports support the presence of an olfactory-amygdala extension path of LB pathology in addition to Braak's hypothesis. Our pathological studies of consecutive autopsy cases showed that the involvement of autonomic ganglia was more frequent than that of the gastrointestinal tract, suggesting that initial the stage of LB pathology in Braak's hypothesis should be modified.     

The role of levodopa in the management of dementia with Lewy bodies

BACKGROUND: One of the core clinical features of dementia with Lewy bodies (DLB) is extrapyramidal syndrome (EPS). Levodopa is currently the gold standard oral therapy for Parkinson's disease (PD), but its use in DLB has been tempered by concerns of exacerbating neuropsychiatric symptoms. AIM: To assess the efficacy and tolerability of L-dopa in managing EPS in DLB and to compare the motor response with that seen in PD and PD with dementia (PDD). METHOD: EPS assessment consisted of the Unified Parkinson's Disease Rating Scale, motor subsection (UPDRS III), and finger tapping and walking tests. Patients with DLB were commenced on L-dopa. After 6 months, patients were examined in the "off" state, given L-dopa and assessed for motor responses. Identical assessments were performed in patients with PD and PDD also receiving L-dopa. RESULTS: Acute L-dopa challenge in 14 DLB patients yielded a mean 13.8% (p = 0.02) improvement in UPDRS III score, compared with 20.5% in PD (n = 28, p < 0.0001) and 23% in PDD (n = 30, p<0.0001) respectively. Finger tapping scores increased (12.3% v 20% and 23%), while walking test scores decreased (32% v 41% and 67%). Of the DLB patients, 36% were classified as "responders" on L-dopa challenge, compared with 70% of the PDD and 57% of the PD patients. Nineteen DLB patients were treated for 6 months with L-dopa (mean daily dose 323 mg). Two withdrew prematurely with gastrointestinal symptoms and two with worsening confusion. CONCLUSION: L-dopa was generally well tolerated in DLB but produced a significant motor response in only about one third of patients. Younger DLB cases were more likely to respond to dopaminergic treatment.