Kristofer Schultz scite author profile

Huntington disease (HD) is a fatal neurodegenerative disorder caused by expansion of a CAG repeat in the HD gene. Degeneration concentrating in the basal ganglia has been thought to account for the characteristic psychiatric symptoms, cognitive decline and motor dysfunction. However, the homeostatic control of emotions and metabolism are disturbed early in HD, and focused studies have identified a loss of orexin (hypocretin) neurons in the lateral hypothalamus in HD patients. There has been limited assessment of other hypothalamic cell populations that may be involved. In this study, we quantified the neuropeptide-expressing hypothalamic neurons known to regulate metabolism and emotion in patients with HD compared to healthy controls using unbiased stereological methods. We confirmed the loss of orexin-expressing neurons in HD and revealed substantial differences in the peptide expression of other neuronal populations in the same patients. Both oxytocin- and vasopressin-expressing neurons were decreased by 45 and 24%, respectively, while the number of cocaine- and amphetamine-regulated transcript (CART)-expressing neurons was increased by 30%. The increased expression of CART in the hypothalamus is consistent with a previous study showing increased CART levels in cerebrospinal fluid from HD patients. There was no difference in the numbers of neuropeptide Y-expressing neurons. These results show significant and specific alterations in the peptide expression of hypothalamic neurons known to regulate metabolism and emotion. They may be important in the development of psychiatric symptoms and metabolic disturbances in HD, and may provide potential targets for therapeutic interventions.

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Hypothalamic and Neuroendocrine Changes in Huntingtons Disease

Hult

Schultz²,

Soylu³

et al. 2010

CDT

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Huntington's disease (HD) is neither a fatal hereditary neurodegenerative disorder without satisfactory treatments nor a cure. It is caused by a CAG repeat expansion in the huntingtin gene. The clinical symptoms involve motor-, cognitive- and psychiatric disturbances. Recent studies have shown that non-motor symptoms and signs, such as mood changes, sleep disturbances and metabolic alterations often occur before the onset of overt motor impairments. The hypothalamus is one of the main regulators of emotion, sleep and metabolism, and it is therefore possible that dysfunction of the hypothalamus and neuroendocrine circuits may, at least partly, be responsible for these non-motor symptoms in HD. Several hypothalamic and neuroendocrine changes have now been identified in clinical HD as well as in rodent models of the disease. These changes could be important both in the pathogenesis of HD, constitute biomarkers to track disease progression as well as to provide novel therapeutic targets for this devastating disease. The current state of knowledge in the area of hypothalamic and neuroendocrine changes in both patients and rodent models of HD is summarized in this review, and their potential as targets for novel treatment paradigms are discussed.

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Reduced CSF CART in dementia with Lewy bodies

Schultz

Wiehager

Nilsson

et al. 2009

Neuroscience Letters

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Dementia with Lewy bodies (DLB) is the second most common form of neurodegenerative dementia after Alzheimer's disease (AD). The underlying neurobiological mechanism of DLB is not fully understood and no generally accepted biomarkers are yet available for the diagnosis of DLB. In a recent MRI study, DLB patients displayed hypothalamic atrophy whereas this region was not affected in AD patients. Cocaine and amphetamine regulated transcript (CART) is a neuropeptide expressed selectively in neurons in the hypothalamus.Here, we found that CSF CART levels were significantly reduced by 30% in DLB patients (n=12) compared to controls (n=12) as well as to AD patients (n=14) using radioimmunoassay. Our preliminary results suggest that reduced CSF CART is a sign of hypothalamic dysfunction in DLB and that it may serve as a biomarker for this patient group.

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Transthyretin as a potential CSF biomarker for Alzheimer’s disease and dementia with Lewy bodies: effects of treatment with cholinesterase inhibitors

Schultz

Nilsson

Nielsen

et al. 2010

Euro J of Neurology

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Transthyretin in cerebrospinal fluid from suicide attempters

Schultz

Träskman‐Bendz

Petersén

2008

Journal of Affective Disorders

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