Lysosomal acid lipase (LAL) is a 399-amino acid protein encoded by the
Approximately 120 disease-causing variants in
We present four Serbian patients from two families with clinical manifestations which are highly suggestive of LAL-D, harboring a novel
Patient 1 presented with hepatosplenomegaly at the age of three years. Initial laboratory evaluation showed elevated serum transaminases with preserved synthetic liver function, mild leukopenia and thrombocytopenia. He is the second child of non-consanguineous parents, from an uneventful pregnancy and perinatal period and normal psychomotor development. His plasma lipid profile revealed very low high density lipoprotein (HDL) cholesterol, elevated TG and normal total cholesterol. Significant liver and spleen enlargement were verified via an abdominal ultrasound exam. A biomarker study was indicative of LSD with high chitotriosidase, ACE and acid phosphatase levels in the blood. On account of hepatosplenomegaly, lipid profile abnormalities and biomarker findings, LAL-D was suspected. Enzyme diagnostics for LAL-D and other LSDs (Gaucher disease, Niemann-Pick disease type A/B and C, Farber disease) were performed at the Metabolic Laboratory of the University of Mainz and results returned negative. Over the following years, hepatosplenomegaly progressed with a further decrease in platelet count. Repeated plasma measurements of chitotriosidase showed elevated values, reaching the highest level at 8083 nmol/ml/hr. With the advent of next generation sequencing, patient 1 was tested by clinical exome sequencing (Quantitative Genomic Medicine Laboratories, SL., Barcelona), and compound heterozygosity for variants in the
Patient 2 (the younger sibling) presented with hepatosplenomegaly upon clinical examination at the age of one and a half. He is the third child from uneventful pregnancy, with a normal perinatal period and normal psychomotor development. Elevated liver enzymes with preserved liver function and thrombocytopenia were observed during the initial laboratory evaluation. A lipidogram revealed reduced HDL cholesterol, along with hypertriglyceridemia, and normal total cholesterol (Table 1). An echographic abdominal evaluation confirmed hepatosplenomegaly, observed in clinical examination. Taking clinical findings and similarity with patient 1 into consideration, enzyme testing on a dry blood spot for LAL-D was performed and reported as normal. In the following years, hepatosplenomegaly showed progression, with persistent thrombocytopenia and consistent finding of reduced HDL cholesterol and elevated TG. Clinical exome sequencing was carried out (Quantitative Genomic Medicine Laboratories, SL., Barcelona) and patient 2 was found to be a compound heterozygote for the same variants in the
Genetic, hematologic and biochemical findings in four Serbian patients with chronic hepatosplenomegaly and variants detected in the
Patient 1 | Patient 2 | Patient 3 | Patient 4 | |
---|---|---|---|---|
c.419G>A (p.Trp140Ter) | c.419G>A (p.Trp140Ter) | c.851C>T (p.Ser284Phe) | c.851C>T (p.Ser284Phe) | |
c.851C>T (p.Ser284Phe) | c.851C>T (p.Ser284Phe) | c.851C>T (p.Ser284Phe) | c.851C>T (p.Ser284Phe) | |
0.14 nmol/punch/hr (normal >0.1) | Not available | 0.32 nmol/punch/h (normal >0.1) | Not performed | |
3.1 - 4.4 | 4.13 - 4.3 | 2.4 - 5.44 | 3.56 - 5.12 | |
2.04 - 2.6 | 2.66 - 2.9 | 1.35 - 4.47 | 2. 44 - 3.9 | |
0.14 - 0.42 | 0.13 - 0.14 | 0.23 - 0.73 | 0.07 - 0.51 | |
1.34 - 6.6 | 2.94 - 3.18 | 0.61 - 1.63 | 1.7 - 3.22 | |
61 - 153 | 109 - 128 | 55 - 200 | 60 - 154 | |
49 - 98 | 50 - 76 | 40 - 105 | 38 - 102 | |
107-126 | 92-115 | 80-118 | 75-127 | |
3.65 - 5.7 | 5.4 -5.8 | 2.66 - 14.4 | 2.6 - 8.54 | |
57.7 -203 | 14 - 204 | 73 - 399 | 66 - 406 | |
120 - 223 | ND | ND | ND | |
2106 - 8083 | ND | 10805 | ND | |
0.597 (normal < 0.05) | ND | ND | ND |
LDL – low density lipoprotein, HDL – high density lipoprotein, TG – triglycerides, WBC – white blood cells, ACE – angiotensin converting enzyme
Patient 3 presented with hepatosplenomegaly at two months of age. Initial laboratory evaluation showed only slightly elevated serum transaminases. He is the third child of non-consanguineous parents with an uneventful perinatal period and normal psychomotor development. A lipid profile revealed normal total cholesterol, with HDL cholesterol below normal and elevated TG. An abdominal ultrasound confirmed hepatic enlargement with structural dyshomogeneity and hyperechogenicity. Chitotriosidase was extremely elevated (Table 1). The enzyme activity of LAL was tested in a dry blood spot sample in the University Medical Center Hamburg-Eppendorf lab and revealed sufficient activity. On the basis of a clinical suspicion of a diagnosis of LSD, a liver biopsy was done at the age of five. The specimen appeared bright yellow-orange in color. Standard HE and special staining were performed on paraffin and frozen sections. Microvesicular steatosis with pronounced liver fibrosis was established, and characteristic groups of uniform, foamy macrophages and Kupffer cells with PAS-positive, granular cytoplasm were found in portal spaces and focally in fibrous septa (figure 1A). The analysis of the Sudan IV stained frozen sections under polarized light revealed numerous, diffuse infiltrate of birefringent, anisotropic, needle-like crystals (figure 1B, 1C). The crystals were lost after heating the tissue sections in a thermostat to 60 degrees Celsius, which demonstrated the thermal sensitivity of the crystals. Hepatosplenomegaly showed progression over the course of time, levels of transaminases increased with development of splenomegaly, thrombocytopenia and a constant finding of low levels of HDL cholesterol (Table 1). Clinical exome sequencing (Illumina TruSight One, Illumina MiSeq) revealed that the patient 3 is homozygous for a missense variant of uncertain significance, NM_000235.4(LIPA):c.851C>T (p.Ser284Phe) in the
Patient 4 is the older sister of patient 3 and she also presented with hepatosplenomegaly at the age of 2.5 years. Laboratory evaluation showed elevated transaminases, dyslipidemia (elevated total cholesterol and LDL cholesterol, low HDL cholesterol and elevated TG) alongside anemia. A liver biopsy, performed at 3 years of age, revealed microvesicular steatosis with pronounced portal fibrosis and the presence of thermal-sensitive birefringent crystals in frozen tissue sections under polarized light. After the biopsy findings, a diagnosis of CESD was established.
In the years that followed, hepatosplenomegaly showed regression, with persistent findings of elevated transaminases, TG, and low HDL cholesterol. Leukopenia and thrombocytopenia developed as well. Upon receiving the results of patient’s brother’s exome sequencing, genetic testing confirmed that patient 4 was homozygous for the same variant as her brother.
It has been observed that the clinical spectrum of LAL deficiency varies from the classic Wolman phenotype of early infantile cholestasis to a non-specific presentation of chronic liver disease with much later onset (2). However, a pattern of clinical (hepatosplenomegaly) and biochemical (dyslipidemia, elevated liver enzymes) abnormalities is present in most of the patients (2,7,8). The disease which affected the two pairs of siblings that we present herein fit well into the pattern of LAL deficiency, especially after the exclusion of LSDs with a more common occurrence among the Serbian population. It has been reported that approximately two thirds of CESD patients have a disease onset before the age of 5 years. This corresponds to the age range of our case series (2 months – 3 years) (18). Clinically, all patients developed progressive hepatosplenomegaly, complicated by hypersplenism. Esophageal varices were present in one pair of siblings. Furthermore, three of our patients manifested with growth faltering, which has been previously described as a relatively common finding in late onset LAL-D (19). A disturbed serum lipid profile is one of the biochemical hallmarks of LAL deficiency (8). All of the patients in our series have persistently low serum HDL cholesterol concentration (Table 1), corresponding to the proposed diagnosis. Patients 3 and 4 also had elevated serum concentrations of total cholesterol and LDL fraction in most of the measurements. Normal serum total and LDL cholesterol in family 1 does not exclude the possibility of LAL-D, especially in the presence of typically low HDL cholesterol (20). Liver enzyme elevation in the serum is present in the whole series we presented herein and these findings correspond to previous clinical reports of LAL-D patients (21). In two of our patients (one from each couple of siblings), chitotriosidase activity in plasma was obtained, and in both cases it showed starkly elevated values. Chitotriosidase is a well-known and widely used marker of LSDs (12,22). Although not entirely specific to metabolic disorders, high chitotriosidase in pediatric patients with familial occurrence of hepatosplenomegaly should direct further testing toward LSDs. Due to the absence of neurologic manifestations in our patients, we suspected the possibility of Gaucher disease type 1 and LAL-D. After negative results of specific enzyme assays for LSDs, whole exome sequencing revealed the aforementioned variants in the
Uniform microvesicular steatosis on light microscopy, liquid crystals of cholesteryl esters with Maltese cross-type birefringence in frozen section and staining with Oil Red O or Sudan Black are the features of liver pathology that strongly suggest CESD (10). Foamy macrophages rich in lipid and ceroid content are one of the hallmarks of histopathology in younger patients (2). Immunohistochemistry reveals lysosomal markers, such as cathepsin D, LAMP1, LAMP2 and LIMP2 (10).
Histology changes in the liver biopsies of patients 3 and 4 were entirely in accordance with the CESD diagnosis. Progression to fibrosis and micronodular cirrhosis is probable in untreated patients (2), and despite the early age at the time of biopsy of patients 3 and 4 (3 and 5 years, respectively), portal fibrosis was pronounced. The case of patient 4 has already been reported in an article describing the usefulness of histopathology in diagnosis of this particular lysosomal storage disorder (23).
We have referred samples of one patient from each pair of siblings (patients 1 and 3) to referent metabolic laboratories (Mainz, Glasgow, Hamburg) and received results stating that LAL activity in plasma was below the normal range in both cases. However, LAL activity was above the cut-off value defined as diagnostic for CESD. Different methods of activity measurement have been employed as diagnostic tools for LAL deficiency worldwide, making it difficult to compare the findings of individual patients. A residual enzyme activity of 2-11% is considered as diagnostic for CESD (24). However, there has been a report of severe LAL-D phenotype associated with substantially higher LAL-D of 16% (25). Therefore, the predictive value of enzymatic activity in regard to the clinical course is not firmly established. Certain authors suggest that precise cutoffs for low LAL activity are still dubious for late-onset CESD, and that clinicians dealing with LSDs should take into account other biomarkers (chitotriosidase, serum transaminases, lipid profile) during the diagnostic process (26, 27, 28, ). Over the years, assays of enzyme activity employed in the diagnostics of different lysosomal storage disorders have been subjected to critical evaluation, pointing out the reduced possibility of false negativity with a more recent methodology (29). Therefore, a borderline enzyme result in the case of LSD suspicion, such as in cases from our report, is recommended for further evaluation by molecular genetic testing (30).
In patients 1 and 2 from our report, two variants were detected in the
The pathogenic c.419G>A (p.Trp140Ter) variant in the LIPA gene, present in heterozygous state in one pair of siblings from our study, is considered as a severe null variant (24). As recently stated by Reiner et al., the clinical importance of heterozygosity (carriership) for variants in the LIPA gene has yet to be elucidated in the future (34). On the other hand, pathogenicity of LIPA gene variants is a subject of critical reevaluation, primarily by means of in vitro functional studies (17). There have been reports that even polymorphisms in the
The possibility of incongruence between genetic findings and enzyme activity, as observed in this series of patients, prompts further investigations. Nonsense, frameshift, and splice mutations typically cause severe (Wolman) forms of the disease (36) while the effect of missense mutations (typically causing the milder CESD) has recently been shown to be related with the structural domain compromised (37). In the case of the missense mutation described herein, we could speculate that it could be related to the compromised ability of the mutated enzyme to reach the optimal subcellular location, while the
When confronted with a challenge of confirming the diagnosis of a treatable inherited metabolic disorder, a clinician should consider a multitude of aspects: clinical manifestations, specific biomarkers, enzyme assay results, and molecular genetic findings. We hope that this report calls cases with considerable discrepancy between those aspects to attention.