Safety of sebelipase alfa for the treatment of lysosomal acid lipase deficiency.

INTRODUCTION: Lysosomal acid lipase deficiency is an autosomal recessive progressive lysosomal storage disease that mainly affects the liver, intestine growth, and causes dyslipidemia. The disease presents as two major phenotypes: the severe early-onset and late-onset forms. Sebelipase alfa is a recombinant human enzyme-replacement therapy for lysosomal acid lipase deficiency, which has been approved for long-term treatment of early-onset and late-onset patients over five years. AREAS COVERED: This review mainly focuses on the safety of sebelipase alfa based on the literature including studies, case reports, and reviews up to January 2021. The search was conducted on PubMed only by using the key word "sebelipase alfa." No restrictions were applied. EXPERT OPINION: The documented adverse events related to sebelipase alfa almost always occurred as infusion reactions. The majority of these reactions were mild to moderate and were easily managed or prevented with antihistamines, antipyretics, and steroids. Rarely, these reactions occurred in the form of anaphylaxis but were treated successfully and the infusions were started again with desensitization without a need for stopping the treatment. Based on the scientific evidence until now, sebelipase alfa appears to be a safe treatment changing the natural history of lysosomal acid lipase deficiency.

Lysosomal Acid Lipase Deficiency: Therapeutic Options.

Lysosomal acid lipase (LAL) deficiency is a metabolic (storage) disorder, encompassing a severe (Wolman disease) and attenuated (Cholesterol ester storage disease) subtype; both inherited as autosomal recessive traits. Cardinal clinical features include the combination of hepatic dysfunction and dyslipidemia, as a consequence of cholesteryl esters and triglyceride accumulation, predominately in the liver and vascular and reticuloendothelial system. Significant morbidity can arise, due to liver failure and/or atherosclerosis; in part related to the severity of the underlying gene defect and corresponding enzyme deficiency. Diagnosis is based on demonstration of decreased LAL enzyme activity, complemented by analysis of the cognate gene defects. Therapeutic options include dietary manipulation and the use of lipid-lowering drugs. Sebelipase alfa, a recombinant enzyme replacement therapy, has garnered regulatory approval, following demonstration of improvements in disease-relevant markers and clinical benefit in clinical trials, which included increased survival in the most severe cases.

Deficiencia de lipasa ácida lisosomal, una patología infrecuente.

Lysosomal acid lipase deficiency is a genetic disease with a low prevalence and high morbidity and mortality in children and adults. It is characterized by an alteration of lipid metabolism, which generates cholesterol and triglyceride esters deposits in the body. Its clinical presentation depends on enzymatic activity. This condition should be suspected in patients with lipid or liver alterations after ruling out other diagnoses. Currently, there is the option of using a recombinant enzyme, which can improve lipid and liver parameters, as well as disease progression. Establishing a timely diagnosis in order to initiate specific treatment early is imperative for the prevention of morbidity and mortality. The purpose of this work is to perform a review of the literature about lysosomal acid lipase deficiency and to guide about its pathophysiology, clinical manifestations, diagnosis and treatment.

El déficit de lipasa ácida lisosomal es una enfermedad genética poco prevalente, con alta morbimortalidad en niños y adultos. Se caracteriza por alteración del metabolismo lipídico que genera depósitos de ésteres de colesterol y triglicéridos en el organismo. La presentación clínica depende de la actividad enzimática. Se debe sospechar en pacientes con alteraciones lipídicas o alteraciones hepáticas después de descartar otros diagnósticos. Actualmente existe la opción de utilizar enzima recombinante, la cual puede mejorar los parámetros lipídicos y hepáticos, así como detener la progresión de la enfermedad. Es imperioso realizar el diagnóstico oportuno para iniciar de forma temprana el tratamiento específico, con el fin de prevenir la morbimortalidad. Se llevó a cabo revisión de la literatura en torno del déficit de lipasa ácida lisosomal, para orientar acerca de su fisiopatología, manifestaciones clínicas, diagnóstico y tratamiento.

Deficiencia de lipasa ácida lisosomal, una patología infrecuente / Lysosomal acid lipase deficiency, a rare pathology

Resumen El déficit de lipasa ácida lisosomal es una enfermedad genética poco prevalente, con alta morbimortalidad en niños y adultos. Se caracteriza por alteración del metabolismo lipídico que genera depósitos de ésteres de colesterol y triglicéridos en el organismo. La presentación clínica depende de la actividad enzimática. Se debe sospechar en pacientes con alteraciones lipídicas o alteraciones hepáticas después de descartar otros diagnósticos. Actualmente existe la opción de utilizar enzima recombinante, la cual puede mejorar los parámetros lipídicos y hepáticos, así como detener la progresión de la enfermedad. Es imperioso realizar el diagnóstico oportuno para iniciar de forma temprana el tratamiento específico, con el fin de prevenir la morbimortalidad. Se llevó a cabo revisión de la literatura en torno del déficit de lipasa ácida lisosomal, para orientar acerca de su fisiopatología, manifestaciones clínicas, diagnóstico y tratamiento.

Abstract Lysosomal acid lipase deficiency is a genetic disease with a low prevalence and high morbidity and mortality in children and adults. It is characterized by an alteration of lipid metabolism, which generates cholesterol and triglyceride esters deposits in the body. Its clinical presentation depends on enzymatic activity. This condition should be suspected in patients with lipid or liver alterations after ruling out other diagnoses. Currently, there is the option of using a recombinant enzyme, which can improve lipid and liver parameters, as well as disease progression. Establishing a timely diagnosis in order to initiate specific treatment early is imperative for the prevention of morbidity and mortality. The purpose of this work is to perform a review of the literature about lysosomal acid lipase deficiency and to guide about its pathophysiology, clinical manifestations, diagnosis and treatment.

Metabolism of Non-Enzymatically Derived Oxysterols: Clues from sterol metabolic disorders.

Cholestane-3ß,5α,6ß-triol (3ß,5α,6ß-triol) is formed from cholestan-5,6-epoxide (5,6-EC) in a reaction catalysed by cholesterol epoxide hydrolase, following formation of 5,6-EC through free radical oxidation of cholesterol. 7-Oxocholesterol (7-OC) and 7ß-hydroxycholesterol (7ß-HC) can also be formed by free radical oxidation of cholesterol. Here we investigate how 3ß,5α,6ß-triol, 7-OC and 7ß-HC are metabolised to bile acids. We show, by monitoring oxysterol metabolites in plasma samples rich in 3ß,5α,6ß-triol, 7-OC and 7ß-HC, that these three oxysterols fall into novel branches of the acidic pathway of bile acid biosynthesis becoming (25R)26-hydroxylated then carboxylated, 24-hydroxylated and side-chain shortened to give the final products 3ß,5α,6ß-trihydroxycholanoic, 3ß-hydroxy-7-oxochol-5-enoic and 3ß,7ß-dihydroxychol-5-enoic acids, respectively. The intermediates in these pathways may be causative of some phenotypical features of, and/or have diagnostic value for, the lysosomal storage diseases, Niemann Pick types C and B and lysosomal acid lipase deficiency. Free radical derived oxysterols are metabolised in human to unusual bile acids via novel branches of the acidic pathway, intermediates in these pathways are observed in plasma.

The Frequency of Lysosomal Acid Lipase Deficiency in Children With Unexplained Liver Disease.

OBJECTIVES: Evidence suggests that lysosomal acid lipase deficiency (LAL-D) is often underdiagnosed because symptoms may be nonspecific. We aimed to investigate the prevalence of LAL-D in children with unexplained liver disease and to identify demographic and clinical features with a prospective, multicenter, cross-sectional study. METHODS: Patients (aged 3 months-18 years) who had unexplained transaminase elevation, unexplained hepatomegaly or hepatosplenomegaly, obesity-unrelated liver steatosis, biopsy-proven cryptogenic fibrosis and cirrhosis, or liver transplantation for cryptogenic cirrhosis were enrolled. A Web-based electronic data collection system was used. LAL activity (nmol/punch/h) was measured using the dried blood spot method and classified as LAL-D (<0.02), intermediate (0.02-0.37) or normal (> 0.37). A second dried blood spot sample was obtained from patients with intermediate LAL activity for confirmation of the result. RESULTS: A total of 810 children (median age 5.6 years) from 795 families were enrolled. The reasons for enrollment were unexplained transaminase elevation (62%), unexplained organomegaly (45%), obesity-unrelated liver steatosis (26%), cryptogenic fibrosis and cirrhosis (6%), and liver transplantation for cryptogenic cirrhosis (<1%). LAL activity was normal in 634 (78%) and intermediate in 174 (21%) patients. LAL-D was identified in 2 siblings aged 15 and 6 years born to unrelated parents. Dyslipidemia, liver steatosis, and mild increase in aminotransferases were common features in these patients. Moreover, the 15-year-old patient showed growth failure and microvesicular steatosis, portal inflammation, and bridging fibrosis in the liver biopsy. Based on 795 families, 2 siblings in the same family were identified as LAL-D cases, making the prevalence of LAL-D in this study population, 0.1% (0.125%-0.606%). In the repeated measurement (76/174), LAL activity remained at the intermediate level in 38 patients. CONCLUSIONS: Overall, the frequency of LAL-D patients in this study (0.1%) suggests that LAL-D seems to be rare even in the selected high-risk population.

Lysosomal Acid Lipase Deficiency in Japan: A Case Report of Siblings and a Literature Review of Cases in Japan.

We report on two siblings with early onset lysosomal acid lipase deficiency or Wolman disease. Their parents had a consanguineous marriage. The children showed evidence of abdominal distension and failed to thrive, despite having regular nutrition. At 3-4 months of age, their abdominal distension and jaundice progressed rapidly and they died of liver failure. Sebelipase alfa, a recombinant form of human lysosomal acid lipase has recently been used as an enzyme replacement therapy in patients with later-onset cholesteryl ester storage disease. Therefore, we investigated cases of lysosomal acid lipase deficiency in Japan and found that the number of cases was extremely low. Only 14 cases of Wolman disease and seven cases of cholesteryl ester storage disease were reported. As it is now possible to treat lysosomal acid lipase deficiency, it is important to increase awareness of this disease among pediatricians and doctors working in internal medicine.

Lysosomal acid lipase deficiency allograft recurrence and liver failure- clinical outcomes of 18 liver transplantation patients.

Lysosomal acid lipase deficiency (LAL-D) results in progressive microvesicular hepatosteatosis, fibrosis, cirrhosis, dyslipidemia, and vascular disease. Interventions available prior to enzyme replacement therapy development, including lipid lowering medications, splenectomy, hematopoietic stem cell and liver transplantation were unsuccessful at preventing multi-systemic disease progression, and were associated with significant morbidity and mortality. We report two sisters, diagnosed in infancy, who succumbed to LAL-D with accelerated disease progression following splenectomy and liver transplantation. The index patient died one year after hematopoietic stem cell transplant and liver transplantation. Her younger sister survived five years post liver-transplantation, complicated by intermittent, acute rejection. Typical LAL-D hepatopathology, including progressive, microvesicular steatosis, foamy macrophage aggregates, vacuolated Kupffer cells, advanced fibrosis and micronodular cirrhosis recurred in the liver allograft. She died before a second liver transplant could occur for decompensated liver failure. Neither patient received sebelipase alfa enzyme replacement therapy, human, recombinant, lysosomal acid lipase enzyme, FDA approved in 2015. Here are reviewed 18 LAL-D post-liver transplantation cases described in the literature. Multi-systemic LAL-D progression occurred in 11 patients (61%) and death in six (33%). These reports demonstrate that liver transplantation may be necessary for LAL-D-associated liver failure, but is not sufficient to prevent disease progression, or liver disease recurrence, since the pathophysiology is predominantly mediated by deficient enzyme activity in bone marrow-derived monocyte-macrophages. Enzyme replacement therapy addresses systemic disease and hepatopathology, potentially improving liver-transplantation outcomes. This is the first systematic review of liver transplantation for LAL-D, and the first account of liver allograft LAL-D-associated hepatopathology recurrence.

Mexican consensus on lysosomal acid lipase deficiency diagnosis. / Consenso mexicano sobre el diagnóstico de la deficiencia de lipasa ácida lisosomal.

INTRODUCTION: Lysosomal acid lipase deficiency (LAL-D) causes progressive cholesteryl ester and triglyceride accumulation in the lysosomes of hepatocytes and monocyte-macrophage system cells, resulting in a systemic disease with various manifestations that may go unnoticed. It is indispensable to recognize the deficiency, which can present in patients at any age, so that specific treatment can be given. The aim of the present review was to offer a guide for physicians in understanding the fundamental diagnostic aspects of LAL-D, to successfully aid in its identification. METHODS: The review was designed by a group of Mexican experts and is presented as an orienting algorithm for the pediatrician, internist, gastroenterologist, endocrinologist, geneticist, pathologist, radiologist, and other specialists that could come across this disease in their patients. An up-to-date review of the literature in relation to the clinical manifestations of LAL-D and its diagnosis was performed. The statements were formulated based on said review and were then voted upon. The structured quantitative method employed for reaching consensus was the nominal group technique. RESULTS: A practical algorithm of the diagnostic process in LAL-D patients was proposed, based on clinical and laboratory data indicative of the disease and in accordance with the consensus established for each recommendation. CONCLUSION: The algorithm provides a sequence of clinical actions from different studies for optimizing the diagnostic process of patients suspected of having LAL-D.

Endothelial Rab7 GTPase mediates tumor growth and metastasis in lysosomal acid lipase-deficient mice.

Tumors depend on their microenvironment for sustained growth, invasion, and metastasis. In this environment, endothelial cells (ECs) are an important stromal cell type interacting with malignant cells to facilitate tumor angiogenesis and cancer cell extravasation. Of note, lysosomal acid lipase (LAL) deficiency facilitates melanoma growth and metastasis. ECs from LAL-deficient (lal-/-) mice possess enhanced proliferation, migration, and permeability of inflammatory cells by activating the mammalian target of rapamycin (mTOR) pathway. Here we report that lal-/- ECs facilitated in vivo tumor angiogenesis, growth, and metastasis, largely by stimulating tumor cell proliferation, migration, adhesion, and transendothelial migration via increased expression of IL-6 and monocyte chemoattractant protein 1 (MCP-1). This prompted us to look for lysosomal proteins that are involved in lal-/- EC dysfunctions. We found that lal-/- ECs displayed increased expression of Rab7, a late endosome/lysosome-associated small GTPase. Moreover, Rab7 and mTOR were co-increased and co-localized to lysosomes and physically interacted in lal-/- ECs. Rab7 inhibition reversed lal-/- EC dysfunctions, including decreasing their enhanced migration and permeability of tumor-stimulatory myeloid cells, and suppressed EC-mediated stimulation of in vitro tumor cell transmigration, proliferation, and migration and in vivo tumor growth and metastasis. Finally, Rab7 inhibition reduced overproduction of reactive oxygen species and increased IL-6 and MCP-1 secretion in lal-/- ECs. Our results indicate that metabolic reprogramming resulting from LAL deficiency enhances the ability of ECs to stimulate tumor cell proliferation and metastasis through stimulation of lysosome-anchored Rab7 activity.

Lysosomal acid lipase deficiency in all siblings of the same parents.

We present 4 normal-weight sibling children with lysosomal acid lipase deficiency (LAL-D). LAL-D was considered in the differential diagnosis based on the absence of secondary causes and primary inherited traits for their marked hyperlipidemia, together with unexplained hepatic transaminase elevation. Residual lysosomal acid lipase activity confirmed the diagnosis. DNA sequencing of LIPA indicated that the siblings were compound heterozygotes (c.894G>A and c.428+1G>A). This case describes the unusual occurrence of all offspring from the same nonconsanguineous mother and father inheriting compound heterozygosity of a recessive trait and the identification of an apparently unique LIPA mutation (c.428+1G>A). It highlights the collaborative effort between a lipidologist and gastroenterologist in developing a differential diagnosis leading to the confirmatory diagnosis of this rare, life-threatening disease. With the availability of an effective enzyme replacement therapy (sebelipase alfa), LAL-D should be entertained in the differential diagnosis of children, adolescents, and young adults with idiopathic hyperlipidemia and unexplained hepatic transaminase elevation.

Update on lysosomal acid lipase deficiency: Diagnosis, treatment and patient management. / Actualización en deficiencia de lipasa ácida lisosomal: diagnóstico, tratamiento y seguimiento de los pacientes.

Lysosomal acid lipase deficiency (LALD) is an ultra-rare disease caused by a congenital disorder of the lipid metabolism, characterized by the deposition of cholesterol esters and triglycerides in the organism. In patients with no enzyme function, the disease develops during the perinatal period and is invariably associated with death during the first year of life. In all other cases, the phenotype is heterogeneous, although most patients develop chronic liver diseases and may also develop an early cardiovascular disease. Treatment for LALD has classically included the use of supportive measures that do not prevent the progression of the disease. In 2015, regulatory agencies approved the use of a human recombinant LAL for the treatment of LALD. This long-term enzyme replacement therapy has been associated with significant improvements in the hepatic and lipid profiles of patients with LALD, increasing survival rates in infants with a rapidly progressive disease. Both the severity of LALD and the availability of a specific treatment highlight the need to identify these patients in clinical settings, although its low prevalence and the existing clinical overlap with other more frequent pathologies limit its diagnosis. In this paper we set out practical recommendations to identify and monitor patients with LALD, including a diagnostic algorithm, along with an updated treatment.

Cholesteryl ester storage disease: protean presentations of lysosomal acid lipase deficiency.

OBJECTIVE: LIPA gene mutations result in deficiency of lysosomal acid lipase and present phenotypically as Wolman disease or cholesteryl ester storage disease (CESD) depending on the level of deficiency. Patients with CESD may often be misdiagnosed because symptoms may be nonspecific. Symptoms may present in infancy if there is complete loss of lysosomal acid lipase or in early childhood or adulthood when there is partial loss. The purpose of the present study is to review the literature for pediatric cases of CESD to better understand the phenotype of CESD. METHODS: A PubMed search of all English-language publications from 1966 through June 2012 for pediatric CESD case reports using the following key words CESD, fatty liver, and NAFLD was performed. All of the cases were reviewed and information regarding age, sex, presenting symptoms, and pertinent laboratory tests were recorded. RESULTS: Seventy-one cases were culled from 39 published case reports. Nearly two-thirds of these patients presented with their first symptoms when they were younger than 5 years. Hepatomegaly and splenomegaly were common features. Serum transaminases and lipids were often elevated. Gastrointestinal symptoms were noted in approximately one-third of cases. Two-thirds of patients had liver fibrosis. CONCLUSIONS: CESD has an estimated incidence as high as 1 in 40,000, which means that it is presently underdiagnosed. Education about common symptoms of CESD as well as a higher level of suspicion for screening for CESD will lead to earlier diagnosis. New treatments for CESD including possible enzyme replacement therapy make early diagnosis especially important.

Overexpression of lysosomal acid lipase and other proteins in atherosclerosis.

Atherosclerosis is one of the major causes of morbidity and mortality in the western world. The existing data of elevated expression levels of proteins like DNA damage and DNA repair enzymes in human atherosclerotic plaques are reviewed. From the literature, the effect of overexpression of different proteins using adenoviral vectors or the model of transgenic mice on the development of atherosclerosis will be discussed. Special focus is placed on the lysosomal acid lipase (LAL), because LAL connects extra-cellular with intra-cellular lipid metabolism and is the only hydrolase for cleavage of cholesteryl esters delivered to the lysosomes. Patients with a deficiency of LAL show an accumulation of lipids in the cells and develop pre-mature atherosclerosis. To answer the question of the influence of LAL in atherosclerosis if overexpressed, we show for the first time data of transgenic mice overexpressing LAL and the effect on the lipid level.