Guidance for the diagnosis and treatment of hypolipidemia disorders.

The Abetalipoproteinemia and Related Disorders Foundation was established in 2019 to provide guidance and support for the life-long management of inherited hypocholesterolemia disorders. Our mission is "to improve the lives of individuals and families affected by abetalipoproteinemia and related disorders". This review explains the molecular mechanisms behind the monogenic hypobetalipoproteinemia disorders and details their specific pathophysiology, clinical presentation and management throughout the lifespan. In this review, we focus on abetalipoproteinemia, homozygous hypobetalipoproteinemia and chylomicron retention disease; rare genetic conditions that manifest early in life and cause severe complications without appropriate treatment. Absent to low plasma lipid levels, in particular cholesterol and triglyceride, along with malabsorption of fat and fat-soluble vitamins are characteristic features of these diseases. We summarize the genetic basis of these disorders, provide guidance in their diagnosis and suggest treatment regimens including high dose fat-soluble vitamins as therapeutics. A section on preconception counseling and other special considerations pertaining to pregnancy is included. This information may be useful for patients, caregivers, physicians and insurance agencies involved in the management and support of affected individuals.

Current Diagnosis and Management of Abetalipoproteinemia.

Abetalipoproteinemia (ABL) is a rare autosomal recessive disorder caused by biallelic pathogenic mutations in the MTTP gene. Deficiency of microsomal triglyceride transfer protein (MTTP) abrogates the assembly of apolipoprotein (apo) B-containing lipoprotein in the intestine and liver, resulting in malabsorption of fat and fat-soluble vitamins and severe hypolipidemia. Patients with ABL typically manifest steatorrhea, vomiting, and failure to thrive in infancy. The deficiency of fat-soluble vitamins progressively develops into a variety of symptoms later in life, including hematological (acanthocytosis, anemia, bleeding tendency, etc.), neuromuscular (spinocerebellar ataxia, peripheral neuropathy, myopathy, etc.), and ophthalmological symptoms (e.g., retinitis pigmentosa). If left untreated, the disease can be debilitating and even lethal by the third decade of life due to the development of severe complications, such as blindness, neuromyopathy, and respiratory failure. High dose vitamin supplementation is the mainstay for treatment and may prevent, delay, or alleviate the complications and improve the prognosis, enabling some patients to live to the eighth decade of life. However, it cannot fully prevent or restore impaired function. Novel therapeutic modalities that improve quality of life and prognosis are awaited. The aim of this review is to 1) summarize the pathogenesis, clinical signs and symptoms, diagnosis, and management of ABL, and 2) propose diagnostic criteria that define eligibility to receive financial support from the Japanese government for patients with ABL as a rare and intractable disease. In addition, our diagnostic criteria and the entry criterion of low-density lipoprotein cholesterol (LDL-C) ＜15 mg/dL and apoB ＜15 mg/dL can be useful in universal or opportunistic screening for the disease. Registry research on ABL is currently ongoing to better understand the disease burden and unmet needs of this life-threatening disease with few therapeutic options.

Progress in the Diagnosis and Management of Chorea-acanthocytosis.

Chorea-acanthocytosis (ChAc) is the most common subtype of neuroacanthocytosis syndrome, characterized by the presence of acanthocytes and neurological disorders. It is thought to be caused by VPS13A mutations. Characteristic movement disorders in ChAc is choreiform movements affecting both trunk and extremities and prominent orolingual dyskinesia is pathognomonic. Acanthocytosis in peripheral blood smear, elevated serum creatine kinase and atrophy of heads of caudate nuclei and dilation of the anterior horn of the lateral ventricles in magnetic resonance imaging could assist the diagnosis of ChAc. Botulinum toxin injection is a possible treatment for the typical orofacial dystonia. Deep brain stimulation is a novel surgical treatment modality. Most cases chose globus pallidus internus as target. Patients with dystonia as a major manifestation will benefit more from high-frequency stimulation and those with major findings of chorea and dysarthria are suitable for low-frequency stimulation. More evidence of long-term outcomes is warranted.

Hipobetalipoproteinemia primária: relato de caso / Primary Hypobetalipoproteinemia: a case report

Descrevemos o caso de uma paciente de 19 anos diagnosticada com hipobetalipoproteinemia primária. A paciente apresentava sintomas compatíveis com a doença como diarreia desde o primeiro mês de vida, défice de crescimento e retinopatia. A biópsia duodenal evidenciou presença de vacúolos lipídicos intraepiteliais, os quais foram altamente sugestivos para o diagnóstico. Os exames complementares evidenciaram disfunção hepática, baixos níveis séricos de triglicerídeos, e de colesterol total e frações. Após a dosagem de apolipoproteína B abaixo dos valores da normalidade, aliada a clínica e exames complementares, o diagnóstico foi realizado. A relativa escassez de dados na literatura em nosso meio, atrelada à raridade da doença, ilustra a relevância deste relato de caso, somado à importância do diagnóstico precoce

The case of a 19-year-old female patient who was diagnosed with Primary Hypobetalipoproteinemia (HBL) is described.The patient presented symptoms that were consistent with the disease, such as diarrhea from the very first month of life, growth failure and retinopathy. The duodenal biopsy showed the presence of intraepithelial lipid vacuoles that were highly suggestive of the diagnosis. Further tests showed liver dysfunction, low serum levels of triglycerides and total cholesterol and fractions. After the dosage of Apolipoprotein B below normal values, and clinical exam along with laboratory tests, the diagnosis was made. The lack of data in the literature and the rarity of the disease illustrate the importance of this case report,and of an early diagnosis.

Contemporary aspects of the biology and therapeutic regulation of the microsomal triglyceride transfer protein.

The microsomal triglyceride transfer protein (MTP), the product of the MTTP gene, is essential for the assembly and secretion of apolipoprotein B-containing lipoproteins, but when defective causes abetalipoproteinemia. Abetalipoproteinemia is a rare autosomal recessive disorder characterized by the inability to produce chylomicrons or very low-density lipoproteins, with the absence of apolipoprotein B-containing lipoproteins in the circulation. Knowledge of the molecular basis for abetalipoproteinemia has led to the development of therapies for dyslipidemia that inhibit MTP. Partial MTP inhibition using small molecule inhibitors, such as lomitapide, can effectively lower plasma low-density lipoprotein-cholesterol and apolipoprotein B levels, but is associated with gastrointestinal side effects and hepatic steatosis, whose long-term sequelae remain unclear; lomitapide has accordingly only been approved as a treatment for homozygous familial hypercholesterolemia. Intestine-specific inhibitors of MTP decrease chylomicron biogenesis and improve insulin sensitivity in experimental animals and, while overcoming hepatic steatosis, may have significant gastrointestinal side effects that could limit their use in humans. We review contemporary aspects of the biology and therapeutic regulation of MTP and their significance for lipid metabolism and cardiovascular disease.

Update on primary hypobetalipoproteinemia.

"Primary hypobetalipoproteinemia" refers to an eclectic group of inherited lipoprotein disorders characterized by low concentrations of or absence of low-density lipoprotein cholesterol and apolipoprotein B in plasma. Abetalipoproteinemia and homozygous familial hypobetalipoproteinemia, although caused by mutations in different genes, are clinically indistinguishable. A framework for the clinical follow-up and management of these two disorders has been proposed recently, focusing on monitoring of growth in children and preventing complications by providing specialized dietary advice and fat-soluble vitamin therapeutic regimens. Other recent publications on familial combined hypolipidemia suggest that although a reduction of angiopoietin-like 3 activity may improve insulin sensitivity, complete deficiency also reduces serum cholesterol efflux capacity and increases the risk of early vascular atherosclerotic changes, despite low low-density lipoprotein cholesterol levels. Specialist laboratories offer exon-by-exon sequence analysis for the molecular diagnosis of primary hypobetalipoproteinemia. In the future, massively parallel sequencing of panels of genes involved in dyslipidemia may play a greater role in the diagnosis of these conditions.

Abetalipoproteinemia and homozygous hypobetalipoproteinemia: a framework for diagnosis and management.

Abetalipoproteinemia (ABL; OMIM 200100) and homozygous hypobetalipoproteinemia (HHBL; OMIM 107730) are rare diseases characterized by hypocholesterolemia and malabsorption of lipid-soluble vitamins leading to retinal degeneration, neuropathy and coagulopathy. Hepatic steatosis is also common. The root cause of both disorders is improper packaging and secretion of apolipoprotein (apo) B-containing lipoprotein particles due to mutations either in both alleles of the MTP (alias MTTP) gene encoding microsomal triglyceride transfer protein (MTP) or both alleles of the APOB gene itself in the case of ABL and HHBL, respectively. Clinical diagnosis is based on signs and symptoms, acanthocytosis on blood smear, and virtually absent apo B-containing lipoproteins, including chylomicrons, very low density lipoprotein and low density lipoprotein. Obligate heterozygote parents of ABL patients usually have normal lipids consistent with autosomal recessive inheritance, while heterozygous parents of HHBL patients typically have half normal levels of apo B-containing lipoproteins consistent with autosomal co-dominant inheritance. Definitive diagnosis involves sequencing the MTP and APOB genes, for which >30 and >60 mutations have been described for ABL and HHBL, respectively. Follow-up includes monitoring for ophthalmologic, neurologic, hematologic, and hepatic complications, as well as compliance with treatment. Investigations include lipid profile, serum transaminases, markers for lipid-soluble vitamins, and periodic instrumental assessment of ocular and neurological function. Mainstays of treatment include adherence to a low-fat diet, and supplementation with essential fatty acids and high oral doses of fat soluble vitamins. Prognosis is variable, but early diagnosis and strict adherence to treatment can recover normal neurological function and halt disease progression.

Knee pain: an unanticipated finding related to a rare genetic disorder--abetalipoproteinemia.

PURPOSE: The purpose of this case study is to raise awareness about an uncommon cause of knee pain. DATA SOURCES: Review of literature was done using PubMed, CINAHL, and Medline. There was no limitation placed on the publication year. Only articles written in English were included. CONCLUSION: Knee pain is a common diagnosis that many healthcare providers see on a daily basis in their practice. Musculoskeletal injury or trauma is most commonly identified as the cause of this symptom. However, there are rare instances in which an unexpected finding in a client's history and physical exam lead us to an unexpected cause, such as abetalipoproteinemia. Abetalipoproteinemia is a rare autosomal recessive disorder in which an affected individual does not absorb lipids or the lipid-soluble vitamins A, D, E, and K. Multiple body systems are impacted by this fat malabsorption and resultant vitamin deficiencies. Without corrective supplementation, clinical manifestations which are directly related to the vitamin deficiencies will appear as presented in this case study-knee pain. IMPLICATIONS FOR PRACTICE: This case study emphasizes the need for nurse practitioners to seek out opportunities to further our knowledge which will enhance our clinical expertise as well as the quality of the health care we provide to our clients.

Neuroacanthocytosis syndromes.

Neuroacanthocytosis (NA) syndromes are a group of genetically defined diseases characterized by the association of red blood cell acanthocytosis and progressive degeneration of the basal ganglia. NA syndromes are exceptionally rare with an estimated prevalence of less than 1 to 5 per 1'000'000 inhabitants for each disorder. The core NA syndromes include autosomal recessive chorea-acanthocytosis and X-linked McLeod syndrome which have a Huntington's disease-like phenotype consisting of a choreatic movement disorder, psychiatric manifestations and cognitive decline, and additional multi-system features including myopathy and axonal neuropathy. In addition, cardiomyopathy may occur in McLeod syndrome. Acanthocytes are also found in a proportion of patients with autosomal dominant Huntington's disease-like 2, autosomal recessive pantothenate kinase-associated neurodegeneration and several inherited disorders of lipoprotein metabolism, namely abetalipoproteinemia (Bassen-Kornzweig syndrome) and hypobetalipoproteinemia leading to vitamin E malabsorption. The latter disorders are characterized by a peripheral neuropathy and sensory ataxia due to dorsal column degeneration, but movement disorders and cognitive impairment are not present. NA syndromes are caused by disease-specific genetic mutations. The mechanism by which these mutations cause neurodegeneration is not known. The association of the acanthocytic membrane abnormality with selective degeneration of the basal ganglia, however, suggests a common pathogenetic pathway. Laboratory tests include blood smears to detect acanthocytosis and determination of serum creatine kinase. Cerebral magnetic resonance imaging may demonstrate striatal atrophy. Kell and Kx blood group antigens are reduced or absent in McLeod syndrome. Western blot for chorein demonstrates absence of this protein in red blood cells of chorea-acanthocytosis patients. Specific genetic testing is possible in all NA syndromes. Differential diagnoses include Huntington disease and other causes of progressive hyperkinetic movement disorders. There are no curative therapies for NA syndromes. Regular cardiologic studies and avoidance of transfusion complications are mandatory in McLeod syndrome. The hyperkinetic movement disorder may be treated as in Huntington disease. Other symptoms including psychiatric manifestations should be managed in a symptom-oriented manner. NA syndromes have a relentlessly progressive course usually over two to three decades.

Abetalipoproteinemia in a Saudi infant.

Abetalipoproteinemia is a rare genetic disorder. A 5-month-old Saudi boy presented with chronic diarrhoea and failure to thrive since 3 months of age. He was cachectic. His peripheral blood picture showed many acanthocytes and he had very low lipid profile. He improved on medium chain triglyceride (MCT) formula and administration of fat soluble vitamins.

[Autosomal recessive cerebellar ataxias]. / Ataxies cérébelleuses autosomiques recessives.

Friedreich ataxia is the most frequent recessive cerebral ataxia d should always be researched first. Ataxia with isolated vitamin E deficiency and abetalipoproteinemia have a specific treatment. Associated neurological signs such polyneuroapthy, ophtalmologic or oculomotor signs, pyramidal signs, and cerebellar MRI can lead to the etiological diagnosis. Biological tests should be: vitamin E, cholesterol, alpha-fetoprotein levels, acanthocytes, than phytanic acid, cholestanol, lysosomal enzymes. Numerous autosomal recessive cerebellar ataxia remain without etiology.

Abetalipoproteinemia complicating the puerperium.

BACKGROUND: Abetalipoproteinemia is a rare, autosomal recessive disease, in which the absence of beta-lipoprotein results in the malabsorption of fat-soluble vitamins. There are few reported complications from abetalipoproteinemia during pregnancy. We present a case of untreated abetalipoproteinemia complicating the puerperium. CASE: A 23-year-old, gravida 3, para 0020 woman presented to an outside facility in labor, and her delivery was complicated by postpartum hemorrhage and a large vulvar hematoma. She was coagulopathic and transferred for suspected disseminated intravascular coagulation. Her preexisting medical history was not appreciated by the transferring facility. CONCLUSION: Abetalipoproteinemia in pregnancy is rare. Untreated disease conveys multi-system organ dysfunction and has ramifications in labor and delivery. Clinicians must elicit a comprehensive medical history to properly manage complications in the puerperium.

Abetalipoproteinemia: monitoreo del tratamiento / Abetalipoproteinemia: monitoring of therapy

La abetalipoproteinemia es causada por un defecto en la síntesis de β-lipoproteínas plasmáticas, VLDL y quilomicrones. Cursa con desnutrición grave, diarrea crónica mal absortiva, polineuritis, ataxia, retinitis pigmentaria y acantocitosis. Se presenta un niño de cinco años de edad que consultó por un cuadro compatible con esta enfermedad. El diagnóstico se hizo por biopsia de intestino delgado y laboratorio. Se inició tratamiento con dieta hipograsa y triglicéridos de cadena mediana, formas hidrosolubles de vitaminas A y D, altas dosis de vitaminas E y K intramuscular y lípidos endovenosos en forma periódica para la provisión de ácidos grasos esenciales ante evidencias de deficiencia. Recibió lípidos endovenosos quincenalmente durante cinco años hasta que comenzó con reacciones de intolerancia durante las infusiones, que hubo que espaciar. La recuperación fue excelente. Hoy, a los catorceaños, es un adolescente normal, con desarrollo y tamaño corporal normales para su edad. Ante la imposibilidad de monitorear el estado nutricional (deficiencia o exceso) en ácidos grasos esenciales y vitaminas, eventualidad posible por lo atípico de la dieta, el síndrome mal absortivo y debido a los valores no dosables en plasma se obtuvieron tres biopsias de tejido adiposo. Los resultados demostraron la dependencia de las infusiones y una composición diferente del tejido adiposo, según los distintos momentos del tratamiento y en comparación con la de los adultos normales de nuestro país. Consideramos que la determinación de ácidos grasos en el tejido adiposo es una herramienta útil en el monitoreo del tratamiento de esta grave enfermedad.

The role of the microsomal triglygeride transfer protein in abetalipoproteinemia.

The microsomal triglyceride transfer protein (MTP) is a dimeric lipid transfer protein consisting of protein disulfide isomerase and a unique 97-kDa subunit. In vitro, MTP accelerates the transport of triglyceride, cholesteryl ester, and phospholipid between membranes. It was recently demonstrated that abetalipoproteinemia, a hereditary disease characterized as an inability to produce chylomicrons and very low-density lipoproteins in the intestine and liver, respectively, results from mutations in the gene encoding the 97-kDa subunit of the microsomal triglyceride transfer protein. Downstream effects resulting from this defect include malnutrition, very low plasma cholesterol and triglyceride levels, altered lipid and protein compositions of membranes and lipoprotein particles, and vitamin deficiencies. Unless treated, abetalipoproteinemic subjects develop gastrointestinal, neurological, ophthalmological, and hematological abnormalities.

[Microsomal triglyceride transfer protein and abetalipoproteinemia]. / <> et abêtalipoprotéinémie

Microsomal triglyceride transfer protein (MTP) is a dimeric protein complex consisting of protein disulfide isomerase and a unique 97 kDa subunit. In vitro, MTP accelerates the transport of triglyceride, cholesteryl ester, and phospholipid between vesicles. It was recently demonstrated that abetalipoproteinemia, a disease characterized as an inability to produce chylomicrons and very low density lipoproteins in the intestine and liver, respectively, is the result of a genetic absence of MTP. Downstream effects resulting from this defect, include very low plasma cholesterol and triglyceride levels, absence of plasma apolipoprotein B and a lipid malabsorption syndrome, leading to lipo-soluble vitamin deficiencies. A low fat diet is instituted to eliminate the diarrhea. In addition, a therapy with vitamins A and E is essential to prevent patients from developing secondary effects such as neuropathy, muscle weakness, and retinopathy.