Case 1 describes a 6-year-old female with CGL2 who is clinically managed in North America. She was diagnosed at 5 years of age based on muscular appearance with lack of subcutaneous fat, hypertriglyceridemia, and hepatic steatosis. Her sister had CGL2, an older brother with a similar physical appearance died at age 7 years of unknown cause, and her parents were consanguineous. She had a large appetite with lack of satiety after meals. Physical examination revealed generalized lack of subcutaneous fat, including absence of mechanical fat in the face, palms, and soles. She was tall for her age, with Z scores for height +2.5, weight +2.0, and body mass index (BMI) +1.6. There was acanthosis nigricans affecting the neck, axillae, and groin. Abdominal girth was markedly increased, with liver edge 15 cm below the right costal margin. Fasting laboratory values revealed a normal glucose level (83 mg/dL [4.6 mmol/L]), markedly elevated insulin level (111 μU/mL [771 pmol/L]), and a normal glycated hemoglobin (HbA1c) level (5.2%; 33 mmol/mol). However, oral glucose tolerance testing (OGTT) showed elevated 2-hour glucose level of 202 mg/dL (11.2 mmol/L), with insulin greater than 1000 μU/mL (6944 pmol/L). High-density lipoprotein (HDL) cholesterol level was low (24 mg/dL [0.6 mmol/L]), and triglyceride levels were slightly elevated (161 mg/dL [1.82 mmol/L]). Hypoleptinemia was also observed (leptin: 0.94 ng/ml). Liver evaluation revealed elevated levels of transaminases (e.g., alanine aminotransferase [ALT], 168 U/L; aspartate aminotransferase [AST], 94 U/L). Vibration-controlled transient elastography (VCTE; FibroScan^®, Echosens, Paris, France) showed steatosis (controlled attenuation parameter [CAP], 358; normal 90-248) and significantly increased liver stiffness (transient elastography, 16.4 kPa; normal <7), ruling in favor of compensated cirrhosis which was confirmed by liver biopsy.

At age 5 years, the patient started metreleptin (0.06 mg/kg/day) with a low-fat diet and metformin (off-label use, 750 mg twice daily), with goals of improving insulin resistance and preventing further progression of liver disease. One year later, her mother noted decreased abdominal girth, near resolution of acanthosis nigricans, and decreased hunger. She had lost 4.6 kg in body weight, and linear growth had slowed. Z scores were +1.0 for height, +0.8 for weight, and +0.4 for BMI. Physical examination revealed reduced hepatomegaly, with liver edge 7 cm below the costal margin, and mild acanthosis nigricans. VCTE showed improved steatosis (CAP, 334) and fibrosis (4.7 kPa); ALT and AST levels were normal. Lipid panel testing showed HDL-cholesterol level of 29 mg/dL (0.75 mmol/L) and triglyceride level of 114 mg/dL (1.29 mmol/L). HbA1c level was 5.2% (33 mmol/mol). Oral glucose tolerance testing (OGTT) showed fasting and 2-hour glucose levels of 82 and 94 mg/dL (4.6 and 5.2 mmol/L), with corresponding insulin of 12 and 38 μU/mL (83 and 264 pmol/L). The patient’s metreleptin dose was reduced to equal 0.06 mg/kg/day based on her reduced body weight.

Case 2 describes a female with CGL type 1 who is clinically managed in Europe. She was born at 39 gestational weeks to healthy consanguineous parents after an uneventful pregnancy. As a newborn, she exhibited generalized loss of subcutaneous fat, muscular hypertrophy, failure to thrive, a voracious appetite, and high serum triglyceride levels. However, hypertriglyceridemia normalized with a modified, low-fat diet. At the age of 4 years, laboratory tests revealed slightly elevated fasting insulin levels, indicative of insulin resistance, but normal HbA1c and fasting glucose levels. Notably, the patient did not present with hypertriglyceridemia at this time. Leptin levels were undetectable, and abdominal ultrasonography confirmed mild hepatic steatosis without evidence of significant fibrosis. The patient's parents reported severe hyperphagic behavior. Genetic testing revealed a homozygous nonsense variant in the AGPAT2 gene.

Management involved lifestyle modifications and dietary counseling to ensure a balanced diet. However, these measures did not normalize insulin sensitivity and liver steatosis. Therefore, metreleptin treatment was initiated at age 10 years (0.06 mg/kg/day). Following 9 months of treatment, insulin levels normalized, and abdominal ultrasonography showed no signs of hepatic steatosis. Moreover, hyperphagic behavior was mitigated with metreleptin. Regular follow-up visits every 6 months in a specialized center were recommended to ensure multidisciplinary care and close monitoring of her metabolic status and liver function. This monitoring approach was also advised for her male sibling who showed similar features after birth, bearing the same variant in the AGPAT2 gene.

Case 3 is a 6-year-old Middle Eastern male who was referred for evaluation of dysmorphic features and hepatosplenomegaly. He was born at term following an uneventful pregnancy. At 3 weeks of age, the patient developed projectile vomiting and was diagnosed with pyloric stenosis, for which he underwent surgery in a local hospital. Following recovery from pyloric stenosis, his appetite improved, and he later became hyperphagic due to leptin deficiency. The patient had a mild delay in meeting motor milestones. His parents are consanguineous and he has two healthy siblings. Upon examination, he had coarse facial features and marked fat loss from the face, extremities, palms, and soles, giving him an apparent muscularity with prominent veins. His skin was normal with no acanthosis nigricans. His weight was at the third percentile. His abdomen was distended, and he had hepatosplenomegaly, with spleen and liver palpable 4 cm below the costal margin. Neuromuscular examination revealed normal muscle strength, normal reflexes, and normal joint range of motion. Painless muscle mounding was easily elicited by finger percussion or reflex hammer on several muscles over the thenar, forearm, arm, and thigh regions.

Laboratory investigations showed AST level at 127 U/L and ALT level at 100 U/L. His creatine kinase (CK) level was 2903 U/L (normal range, 39–308 U/L). His HbA1c level was 4.5% (26 mmol/mol), and his OGTT results were normal. Electrocardiogram (ECG) findings were also normal. His lipid profile showed triglyceride levels at 257 mg/dL (2.9 mmol/L) and serum leptin levels were undetectable. A cervical spine X-ray revealed atlantoaxial instability. Genetic workup identified a homozygous pathogenic frameshift variant c.160del (p.Val54Cysfs2) in the PTRF/CAVIN1 gene. Metreleptin was initiated (0.06 mg/kg/day; with a low-fat diet) to treat the metabolic complications of leptin deficiency in this patient.

Case 4 is adolescent female who was referred to an endocrinology clinic in Europe for assessment of AGL associated with severe autoimmune liver disease, liver fibrosis and portal hypertension. She first developed acute autoimmune hepatitis at the age of 4 years and was treated with immunosuppressant therapies, including prednisolone and azathioprine. Coincident with the development of hepatitis, she had progressive generalized loss of all subcutaneous fat over a period of approximately 6 months. At age 13 years, her liver disease was stable on a low dose of prednisolone (2.5 mg on alternate days), but fibrosis and MASH were evident on a recent biopsy. She developed diabetes mellitus at the age of 10 years and was treated with insulin, given as multiple daily injections totaling 0.9 units per kg per day. She struggled with dietary adherence. On examination, she had generalized absence of subcutaneous fat, moderate acanthosis nigricans (neck and axillae), and a smooth liver edge was palpable 3 cm below the right costal margin. Low leptin levels were also detected (leptin, <0.5 ng/ml).

In view of the coexistence of diabetes mellitus and generalized lipodystrophy, the decision was made to start treatment with metreleptin at a dose of 0.06 mg/kg/day, in addition to low-fat diet, with the aim of mitigating ongoing liver insult secondary to lipodystrophy. Improvements in metabolic parameters were observed 6 months post-metreleptin initiation. These included reductions from baseline on fasting glucose (from 227 mg/dL [12.6 mmol/L] to 132 mg/dL [7.3 mmol/L]), HbA1c (from 6.9% to 5.7% [from 52 mmol/mol to 39 mmol/mol]), fasting insulin (from 173 µU/mL [1201 pmol/L] to 94 µU/mL [653 pmol/L]), triglycerides (from 434 mg/dL [4.9 mmol/L] to 177mg/dL [2.0 mmol/L]) and ALT (65 U/L to 23 U/L). Treatment was well tolerated, with no adverse effects.

Case 5 is a 29-year-old female who was referred to a European clinic for high triglyceride levels. The patient was diagnosed with hypertriglyceridemia at 15 years of age (>1000 mg/dL [>11.3 mmol/L]) and was treated with omega-3 fatty acids. Hypertriglyceridemia was diagnosed while managing severe acanthosis nigricans. Development of Cushingoid facial features also occurred. Insulin levels and homeostatic model assessment for insulin resistance were high; however, no diabetes was detected. She was diagnosed with PCOS at 17 years of age due to oligomenorrhea and hirsutism and treated with metformin. At age 28, the patient initiated oral estrogen/progesterone due to amenorrhea for over 12 months. Soon thereafter, she had an episode of moderate-severe acute pancreatitis associated with splenic artery thrombosis. Lifestyle risk factors for pancreatitis (e.g., alcohol consumption) were excluded. During the event, highly elevated triglyceride levels were detected (5400 mg/dL [61 mmol/L]), and plasma apheresis was performed. Diabetes was also diagnosed at that time (HbA1c, 7.5% [59 mmol/mol]). She started metformin (500 mg), fibrate, and omega-3 fatty acids (2000 mg). Her family history was positive for high triglyceride levels (>2000 mg/dL [>22.6 mmol/L] in both her mother and her maternal uncle) and negative for pancreatitis. As the patient expressed a desire to start a family, metreleptin therapy was not initiated in this patient (as per the European prescribing information, metreleptin is not recommended during pregnancy while female patients of childbearing potential are advised to use adequate contraception, if necessary, during metreleptin treatment) (57). At age 29, her physical measurements were normal (weight, 68 kg; height, 173 cm; BMI, 22.7; waist circumference, 84 cm). Her physical appearance suggested FPLD2 with Cushingoid features, acanthosis nigricans, hirsutism, loss of adipose tissue mainly in the legs, and phlebomegaly. An abdominal computed tomography (CT) scan revealed liver steatosis with hepatomegaly, as well as suspected abdominal mesenteric lipomatosis. Low-moderate fibrosis was detected on VCTE. Kidney function was normal, but microalbuminuria was present. Reduced levels of leptin (3.5 ng/ml) and adiponectin (0.9 µg/ml) were noted. Genetic analysis revealed a pathogenic heterozygous variant in exon 8 of the LMNA gene (c.1145G>A) (67).

Estrogen/progesterone was stopped. A low-fat and low-sugar diet was started. Fibrates, increased omega-3 fatty acids (4000 mg/day) and metformin (1000 mg/day) were maintained. Treatment with dapaglifozin (10 mg/day), a statin, and a medium-chain-triglyceride oil resulted in improvement of diabetes, lipid profile, and appearance of menstrual cycles.

Case 6 represents a 12-year-old Caucasian female who was referred to a clinic in the North America with generalized loss of adipose tissue that was particularly evident in her face and extremities. Physical examination revealed micrognathia, pinched nose, low-set ears, atrophic skin with mottled hyperpigmentation, and mild acanthosis nigricans. Additionally, she exhibited joint contractures of the phalangeal joints, wrists, and ankles, and hammer toes. Her medical history indicated a failure to thrive since early infancy, with the loss of subcutaneous fat becoming evident around the age of 6. She also developed mottled skin hyperpigmentation in the neck, axillae, and groin. Hepatomegaly was noted at 9 years of age. Notably, there was no known family history of lipodystrophy. At 10 years of age, the patient was diagnosed with diabetes (HbA1c, 9.5% [80 mmol/mol]), hypertriglyceridemia (750 mg/dL [8.5 mmol/L]), and elevated serum AST and ALT levels (78 and 50 IU/L, respectively). Her serum leptin level was low at 0.4 ng/ml. Genetic testing showed a de novo heterozygous pathogenic c.29C>T variant in the LMNA gene, which translates to a p.Thr10Ile amino acid substitution in the lamin A/C protein. Further investigations revealed hepatosplenomegaly with hepatic steatosis on abdominal ultrasound, which was confirmed by biopsy to be MASH without fibrosis. Echocardiogram showed valvular abnormalities.

Insulin was initiated at 10 years of age, and metreleptin (in addition to a low-fat diet) was added at 11 years of age (0.06 mg/kg/day). This combined therapy led to improved fasting serum triglyceride levels to 150 mg/dL (1.69 mmol/L) and HbA1c level to 8% (64 mmol/mol) by 12 years of age.

Case 7 is a 14-year-old Middle Eastern female with CGL1 (due to a homozygous variant in the AGPAT2 gene). Her family history includes consanguineous parents. The patient was clinically diagnosed with CGL at age of 3 years; however, clinic visits were infrequent. At age 14 years, she was admitted to a local hospital with an elbow fracture after falling from a bicycle. On physical examination she was noted to have prominent musculature, abdominal distension with mild hepatomegaly, and she had not yet started menstruation. Growth charts showed that she had experienced failure to thrive, with a weight standard deviation score consistently below –2 in past visits, while her height remained within normal limits for her age.

Laboratory evaluation showed mild elevation of ALT level (44 IU/L) with a normal lipid profile and HbA1c of 5.5% (37 mmol/mol). An X-ray of the fractured elbow showed a bone cyst at the fracture site, and additional smaller bone cysts were detected in the extremities. Ultrasonography showed a slightly enlarged liver. Her ECG showed no arrythmias, and her echocardiogram findings were normal.

Case 8 is a 5-year-old male (managed in Europe) with a rare phenotype of frequent severe seizures followed by near-complete adipose tissue loss (previously reported in (70)). The patient was born at term after an uncomplicated pregnancy to non-consanguineous parents. Within the first month after birth, the patient presented with generalized hypotonia. At 12 months of age, he developed tonic seizures that occurred monthly, which were controlled with valproic acid. At 2 years of age, his height was normal, with a low BMI and almost complete lack of subcutaneous adipose tissue. At initial evaluation, the patient presented with hypertriglyceridemia, elevated liver transaminases, and hepatic steatosis, and was prescribed a low-fat diet. He also had a psychomotor delay. In the ensuing years, seizure frequency increased accompanied by myoclonic phenomena that were resistant to pharmacologic therapy. Genetic testing revealed a homozygous c.(1076dupC)/p.(Glu360*) BSCL2 variant. At 4 years of age, his hypertriglyceridemia moderately improved with low-fat diet; further evaluations revealed hepatomegaly with steatosis and arrhythmia was found on ECG. While he was able to walk, he had frequent falls due to myoclonic seizures. Moreover, he had severe intellectual disability, and electroencephalography (EEG) findings indicated worsening of the seizures.

The patient required several hospitalizations for prolonged myoclonic seizures. Therefore, a vagal nerve stimulator was implanted. Perampanel was initiated after seizures reappeared. Daily seizures (up to 60 seizures episodes per day) persisted, without status epilepticus. Ten months later, at 5 years of age, he was hospitalized with new episodes of prolonged seizures with mixed tonic and myoclonic components. Subcutaneous metreleptin 0.06 mg/kg/day was initiated and was well tolerated. After 2 months of therapy, his overall lipid profile improved; neurological status was stable without prolonged seizures. Serum leptin level (0.4 ng/mL) was normal-to-low for his BMI (0.25-3.20 ng/mL) before metreleptin. After 1 year of treatment with metreleptin, liver function improved. The patient’s height velocity was 8.1 cm/year, and his BMI was below the third percentile. In the subsequent 2 years, he did not experience any prolonged myoclonic epileptic seizures, and the frequency of hospitalization decreased but he still experienced 2 to 3 seizures per month, and daily myoclonic seizures involving mainly the perioral muscles.

Case 9 is a 10-year-old female (managed in South America) who was diagnosed with CGL2 at age 8 months. She had a sister with the same diagnosis. She exhibited generalized loss of subcutaneous fat and muscular hypertrophy since birth, failure to thrive, voracious appetite and high serum triglycerides (407 mg/dL [4.6 mmol/L]). She had hepatomegaly without clinically significant fibrosis, and slightly elevated fasting insulin without diabetes. After starting a low-carbohydrate and low-fat diet, her hyperphagia led to socially dysfunctional food-seeking behaviors, including stealing food at school, and hitting peers to obtain food. Her most recent BMI measure was 14.1 (Z-score, -1.07) and blood pressure was at 102/64 mmHg. Echocardiogram and abdominal ultrasound were normal. Genetic testing revealed a pathogenic nonsense variant in the BSCL2 gene, c414, deletion (p.Cys138Ter) in exon 3.

Management included lifestyle modifications and dietary counselling to ensure a balanced diet. Aripiprazole was initiated to help control her aggressive behavior at school and at home.

Case 10 is a female patient (managed in Europe) who was diagnosed with CGL1 at 2 months of age. Diagnosis was supported by a generalized lack of adipose tissue, morphological features characteristic of CGL, insulin-resistant diabetes, hypertriglyceridemia, and elevated liver enzymes. Metabolic abnormalities resolved within few months following the initiation of a low-fat diet and medium chain triglycerides supplementation without need for insulin or other medications. Insulin resistance reappeared at age 11 years (isolated elevated fasting insulinemia), and she developed clinical diabetes at age 13.5 years with a corresponding increase in HbA1c levels from 6% to 11% (from 42 mmol/mol to 97 mmol/mol) within a 4-month period. Lipids levels and liver enzymes remained in the normal range.

Insulin was initiated shortly after the diagnosis of diabetes followed by metformin. Metreleptin was initiated 6 months later (at age 14 years) but the patient developed allergic reactions (skin redness at injection sites and itchy throat) after 1 month of treatment and was stopped. HbA1c was 10.5% (91 mmol/mol) despite increased insulin doses. Dapagliflozin (10 mg/daily) and semaglutide (0.5 mg/week) were later introduced after which total daily insulin requirements decreased from 1.5 to 0.6 units/kg/day and HbA1c level reduced to 6.4% (46 mmol/mol). This treatment regimen was maintained for 5 years up to the present day. However, during early adulthood, the patient developed hypertriglyceridemia and persistent microalbuminuria that were controlled with fenofibrate and enalapril, respectively.