Subcellular distribution of cerebral cholestanol in cerebrotendinous xanthomatosis

Emerging cellular themes in leukodystrophies

Leukodystrophies are a broad spectrum of neurological disorders that are characterized primarily by deficiencies in myelin formation. Clinical manifestations of leukodystrophies usually appear during childhood and common symptoms include lack of motor coordination, difficulty with or loss of ambulation, issues with vision and/or hearing, cognitive decline, regression in speech skills, and even seizures. Many cases of leukodystrophy can be attributed to genetic mutations, but they have diverse inheritance patterns (e.g., autosomal recessive, autosomal dominant, or X-linked) and some arise from de novo mutations. In this review, we provide an updated overview of 35 types of leukodystrophies and focus on cellular mechanisms that may underlie these disorders. We find common themes in specialized functions in oligodendrocytes, which are specialized producers of membranes and myelin lipids. These mechanisms include myelin protein defects, lipid processing and peroxisome dysfunction, transcriptional and translational dysregulation, disruptions in cytoskeletal organization, and cell junction defects. In addition, non-cell-autonomous factors in astrocytes and microglia, such as autoimmune reactivity, and intercellular communication, may also play a role in leukodystrophy onset. We hope that highlighting these themes in cellular dysfunction in leukodystrophies may yield conceptual insights on future therapeutic approaches.

Natural history of neurological abnormalities in cerebrotendinous xanthomatosis

OBJECTIVES

Cerebrotendinous xanthomatosis (CTX) is a rare inherited neurodegenerative disorder in bile acid synthesis. The natural history of neurological abnormalities in CTX is not well understood. The object of this study was to determine neurological progression in CTX.

METHODS

A literature search on PubMed for "cerebrotendinous xanthomatosis" yielded 91 publications that reported cases of CTX patients. Two independent reviewers abstracted information about the presence and age of onset of neurological abnormalities in published CTX cases. For each neurological abnormality, we estimated the probability of its onset at any given age using cumulative incidence function analysis. We also present our own case series, in which five CTX patients were evaluated.

RESULTS

The literature search yielded 194 CTX cases (ages ranging from newborn to 67 years old). The most common neurological abnormalities were corticospinal tract abnormalities including weakness, hyperreflexia, spasticity, Babinski sign (59.8%), ataxia (58.8%), cognitive decline (46.4%), and gait difficulty (38.1%); 68 (35.0%) had baseline cognitive problems. Cumulative incidence function analysis revealed that ataxia, gait difficulties, and corticospinal tract abnormalities developed throughout life, while cognitive decline tended to develop later in life. Of the less common neurological abnormalities, seizures, psychiatric changes and speech changes developed throughout life, while parkinsonism and sensory changes tended to develop later in life. Our case series corroborated this temporal pattern of neurological abnormalities.

CONCLUSION

We provide estimates for the neurological progression of CTX, categorizing neurological abnormalities according to time and probability of development. Our approach may be applicable to other rare disorders.

Cholestanol metabolism in patients with cerebrotendinous xanthomatosis: absorption, turnover, and tissue deposition

To study the metabolism of cholestanol in patients with cerebrotendinous xanthomatosis (CTX), we measured the cholestanol absorption, the cholesterol and cholestanol turnover, and the tissue content of sterols in two patients. Cholestanol absorption was approximately 5.0%. The rapid exchangeable pool of cholestanol was 233 mg, and the total exchangeable pool was 752 mg. The production rate of cholestanol in pool A was 39 mg/day. [4-14C]cholestanol was detected in the xanthomas, but neither [4-14C]cholestanol nor [4-14C]cholesterol was detected in peripheral nerves biopsied at 49 and 97 days after [4-14C]cholesterol given intravenously. Of the 18 tissues analyzed at biopsy and autopsy, the cholestanol content varied from 0.09 mg/g in psoas muscle to 76 mg/g in a cerebellar xanthoma. With the assumption that the cholestanol-to-cholesterol ratio is 1.0, the relative cholestanol-to-cholesterol ratio varied from 1.0 in plasma and liver to 30.0 in the cerebellar xanthoma; cholestanol was especially high in nerve tissue. Our data indicate that CTX patients absorb cholestanol from the diet. They have a higher than normal cholestanol production rate. Cholestanol was derived from cholesterol. In CTX patients, the blood-brain barrier was intact to the passage of [4-14C]cholesterol and [4-14C]cholestanol. The deposition of large amounts of cholestanol (up to 30% of total sterols in cerebellum) in nerve tissues must have an important role in the neurological symptoms in CTX patients. In view of the intact blood-brain barrier, several other explanations for the large amounts of cholestanol in the brain were postulated.

The neuropathology of cerebrotendinous xanthomatosis revisited: a case report and review of the literature

Cerebrotendinous xanthomatosis (CTX), a rare autosomal-recessive lipid storage disease, has been well characterized clinically and biochemically, and recently also from the molecular biological aspect. However, only a very few publications deal with its neuropathology, and views on its pathogenesis vary. Based on a recently examined case, we propose that central-peripheral distal axonopathy is the major pathogenetic mechanism of nervous system injury in CTX. The latter is characterized by white matter pathology, typically in form of long tract involvement with the more distal parts of the tract more severely affected. Most severely affected are the cerebellar white matter, the optic pathways and the long tracts of the brain stem and spinal cord, particularly the pyramidal tracts, although there is hardly a CNS region which does not display some form of pathology. Lesions are characterized by loss of myelinated fibers and accumulation of lipid products in form of foamy macrophages, clear oil-red-O-positive spaces and crystalline clefts, accompanied by gliosis, occasional axonal spheroids, and in the cerebellum--the most severely affected structure--also by multi-nucleated foreign body giant cells. Demyelination is not seen, and ultrastructurally myelin sheaths are normally structured. Signs of axonal degeneration are also present in the spinal roots. We hypothesize that the basic enzymatic defect in CTX leads to accumulation of metabolites in the brain which may be neurotoxic and may impair the metabolic apparatus of neurons with resultant axonopathy and subsequent nonspecific lipid deposition in the injured tracts.

Magnetic resonance imaging in cerebrotendinous xanthomatosis: a prospective clinical and neuroradiological study

We describe MRI findings in 13 persons with typical clinical, EEG, CT and biochemical features of cerebrotendinous xanthomatosis (CTX). MRI showed brain (13/13) and cerebellar (12/13) atrophy and diffuse white matter hypodensity (4/13) presumably reflecting sterol infiltration with demyelination. Focal lesions were rare (2/13). Mass effect, edema or enhancement were not observed. Treatment with chenodeoxycholic acid (CDCA) 750 mg/day orally improved neurological and biochemical abnormalities. MRI appears to be of little value in following improvement after treatment has begun. Otherwise, the MRI studies are very sensitive and useful in diagnosing early incomplete forms of CTX.

Epileptic seizure as a presenting symptom of cerebrotendinous xanthomatosis

Cerebrotendinous xanthomatosis (CTX) is a rare hereditary disease characterized by xanthomata of tendons, osteoporosis, cataracts, cerebellar ataxia, spastic paresis, and dementia. Though electroencephalographic (EEG) abnormalities are frequent in CTX, epileptic seizures have not been recognized as a major feature. A CTX patient is reported who presented with a generalized epileptic seizure and was evaluated with EEG and neuropsychological testing. Epilepsy should be considered a feature of CTX, and CTX considered as a possible, though rare, cause of symptomatic seizures.

Atherogenic risk factors in cerebrotendinous xanthomatosis

In a study of coronary artery disease in patients with cerebrotendinous xanthomatosis (CTX), we documented the presence or absence of atherogenic risk factors and performed detailed analyses of serum lipid and lipoprotein profiles. Four of the seven patients examined had coronary arterial narrowing and/or obstruction, but multiple atherogenic risk factors were not found in any of these patients. Total cholesterol (T.ch) levels and low density lipoprotein-cholesterol (LDL-ch) levels were lower, and high density lipoprotein2-cholesterol (HDL2-ch) levels were higher in CTX patients than in controls. Triglyceride and very low density lipoprotein (VLDL) levels were significantly lower in the former. Indices correlating with the risk of atherosclerosis, such as the atherogenic index, and the ratios of apolipoprotein B/apolipoprotein AI, HDL2-ch/LDL-ch, HDL2-ch/HDL3-ch, indicated that CTX serum was, in fact, 'anti-atherogenic'. However, coronary artery disease is frequently seen in patients with CTX. This discrepancy suggests the existence of a unique mechanism by which atherosclerosis is induced in patients with CTX. We discuss a mechanism of disturbed lipoprotein metabolism which might be responsible for the deposition of sterols in the tissues of patients with CTX.

Cerebrotendinous xanthomatosis: clinical and biochemical evaluation of eight patients and review of the literature

We present the clinical and laboratory findings of 8 patients with cerebrotendinous xanthomatosis. The clinical features consisted of a combination of bilateral Achilles tendon xanthomas, cataracts, low intelligence, pyramidal signs, cerebellar signs, convulsions, peripheral neuropathy, foot deformity, cardiovascular disease or atherosclerosis, EEG abnormality, and increased CSF protein. Increased cholesterol was present in the serum, CSF and red cell membrane of all 8 patients. The bile of one patient with late age onset of the disease showed an attenuated production of bile acids and bile alcohols. Three of the 7 had obstruction and/or marked narrowing of the coronary arteries. Data on 136 patients reported throughout the world are reviewed.

Increased concentrations of cholestanol and apolipoprotein B in the cerebrospinal fluid of patients with cerebrotendinous xanthomatosis. Effect of chenodeoxycholic acid

We investigated the effect of chenodeoxycholic acid on cerebrospinal fluid sterol and protein composition in six patients with cerebrotendinous xanthomatosis, a progressive neurologic disease, and in 11 control subjects. In the cerebrospinal fluid from the controls, the mean (+/- SD) levels of cholesterol and cholestanol were 400 +/- 300 and 4 +/- 7 micrograms per deciliter, respectively. The levels were almost 1.5 and 20 times higher in cerebrospinal fluid from untreated patients with cerebrotendinous xanthomatosis. Cholestanol levels were also markedly elevated in the plasma of untreated patients, but their plasma cholesterol levels (215 +/- 61 mg per deciliter) were not different from control values. Treatment with chenodeoxycholic acid reduced cerebrospinal fluid cholesterol by 34 percent and cholestanol threefold. Plasma cholestanol levels also decreased sharply. Normal cerebrospinal fluid contained small quantities of albumin, apolipoproteins, and lecithin:cholesterol acyltransferase. In cerebrospinal fluid from untreated patients with cerebrotendinous xanthomatosis, immunoreactive apolipoprotein B or apolipoprotein B fragment was increased about 100-fold and albumin about 3.5-fold; apolipoprotein AI, apolipoprotein D, and lecithin:cholesterol acyltransferase were 1.5 to 3 times more concentrated. Apolipoprotein AIV and apolipoprotein E concentrations were comparable to those in controls, and apolipoprotein AII was considerably decreased. During treatment, the concentrations of albumin and apolipoproteins AI and B declined. These results suggest that increased cerebrospinal fluid sterols are derived from plasma lipoproteins by means of a defective blood-brain barrier in patients with cerebrotendinous xanthomatosis. Therapy with chenodeoxycholic acid reestablished selective permeability of the blood-brain barrier and normalized the concentrations of sterol and apolipoprotein in the cerebrospinal fluid.

Cerebrotendinous xanthomatosis: clinical and laboratory study of 2 cases

Cerebrotendinous xanthomatosis is an unusual disease, clinically characterized by dementia, cataracts, progressive cerebellar ataxia, pyramidal signs, and multiple xanthomas of tendons and other tissues. It was first described in 1937, and in 1968 the storage of cholesterol and cholestanol in the tissues was demonstrated. About 30 cases have been reported. The authors of the present communication report 2 cases in siblings with parental consanguinity. They showed mental impairment and cataract, and multiple xanthomas; in 1 case, pyramidal signs were detected in the 4 limbs associated with a rise of the vibration sense thresholds in the feet. The diagnosis was confirmed in both cases by greatly increased cholestanol levels in the blood serum, bile and in a tendon xanthoma. Cholesterol concentrations in the blood serum and bile were normal although increased in the xanthoma. One case had a gallstone. Computerized tomography showed hyperdense nodules in the cerebellar hemispheres of one patient, and a calcified parietal nodule in his sister. The etiopathogenesis of the disease is discussed. Treatment with ursodeoxycholic acid is in course in both patients.

A unique patient with coexisting cerebrotendinous xanthomatosis and beta-sitosterolemia

An adult Chinese man presented with tendinous and tuberous xanthomatosis and severe atheromatous changes in the coronary arteries. In addition, he had chronic hemolytic anemia, with spherostomatocytic erythrocytes. Cerebrotendinous xanthomatosis was diagnosed on the basis of increased cholestanol levels in his plasma, red cells and xanthoma, changes in bile acid composition due to the defective synthesis of chenodeoxycholic acid. Coexisting beta-sitosterolemia was confirmed by the finding of large amounts of the plant sterols such as beta-sitosterol and campesterol. This is the first report of these two rare lipid storage disorders in the same patient.