Deletion mutation in BSCL2 gene underlies congenital generalized lipodystrophy in a Pakistani family

Background Congenital generalized lipodystrophy (CGL) also known as Berardinelli-Seip Congenital Lipodystrophy (BSCL) is a genetically heterogeneous disorder characterized by loss of adipose tissues, Acanthosis nigricans, diabetes mellitus, muscular hypertrophy, hepatomegaly and hypertriglyceridemia. There are four subclinical phenotypes of CGL (CGL1-4) and mutations in four genes AGPAT2, BSCL2, CAV1 and PTRF have been assigned to each type. Methods The study included clinical and molecular investigations of CGL disease in a consanguineous Pakistani family. For mutation screening all the coding exons including splice junctions of AGPAT2, BSCL2, CAV1 and PTRF genes were PCR amplified and sequenced directly using an automated DNA sequencer ABI3730. Results Sequence analysis revealed a single base pair deletion mutation (c.636delC; p.Tyr213ThrfsX20) in exon 5 of BSCL2 gene causing a frame shift and premature termination codon. Conclusion Mutation identified here in BSCL2 gene causing congenital generalized lipodystrophy is the first report in Pakistani population. The patients exhibited characteristic features of generalized lipodystrophy, Acanthosis nigricans, diabetes mellitus and hypertrophic cardiomyopathy. Virtual Slides The virtual slide(s) for this article can be found here: http://www.diagnosticpathology.diagnomx.eu/vs/1913913076864247.


Background
Congenital generalized lipodystrophy (CGL), or Berardinelli-Seip congenital lipodystrophy (BSCL), is a genetically heterogeneous disorder characterized by loss of adipose tissues and sub-cutaneous fats, enlarged fatty liver, hypertrophic muscles, Acanthosis nigricans, increased serum triglyceride level, insulin intolerance or diabetes mellitus. Pathogenicity of four genes has been reported in four clinically overlapping phenotypes so far.
The affected individuals of congenital generalized lipodystrophy type 1 (CGL1, MIM 608594) are characterized by typical poor fat accumulation in the metabolically active and mechanical adipose tissues. In addition these patients have special features of lytic bone lesions that are absent in other forms of CGL [1,2]. Loss-of-function mutations in 1-acylglycerol-3-phosphate-O-Acyltransferase (AGPAT2, MIM 603100) gene at chromosome 9q34. 3 have been assigned to cause CGL1 phenotype [3,4].
In the present study clinical and molecular analysis of a four generations consanguineous Pakistani family demonstrating autosomal recessive CGL phenotype was performed. Direct sequencing of four candidate genes in a Pakistani family revealed a single base pair deletion mutation in BSCL2 gene.

Human subjects
The present four-generation family, exhibiting features of CGL or BSCL (Figure 1), belonged to Peshawar city of Khyber Pakhtunkhwa province, Pakistan. The affected individuals were born to first degree cousins, suggesting that affected individuals are homozygous for a mutant allele. All affected and unaffected individuals underwent examination at the local government hospitals. Prior to start of study, approval was obtained from Institutional Review Board (IRB), Khyber Medical University Peshawar, Pakistan. Informed consent for the study including presentation of photographs was obtained from affected individuals and their parents for publication. Genomic DNA extraction and polymerase chain reaction was performed as described earlier [12].

Mutational analysis
Entire coding region and splice junction sites of AGPAT2, BSCL2, CAV1 and PTRF genes were amplified by PCR and screened by DNA sequencing for potential sequence variants. Primer sequences (available on request) were designed for each exon using Primer3 software [13] and checked for specificity using Basic Local Alignment Search Tool (BLAST; http://www.ncbi.nlm. nih.gov/blast). Purification of the PCR-amplified DNA was performed with commercially available kits (Marligen Biosciences, Rockville MD, USA). Sequencing of the potential candidate genes was performed using Big Dye Terminator v3.1 Cycle Sequencing Kit, together with an ABI Prism 3730 Genetic Analyzer (Applera, Foster City, CA, USA). Sequence variants were identified via Bioedit sequence alignment editor version 6.0.7 (www. mbio.ncsu.edu/BioEdit/bioedit.html).

Clinical features of the affected individuals Skin
The affected members (IV-1 and IV-3) of the family showed characteristic features of congenital generalized lipodystrophy. Both the affected individuals had acanthosis nigricans (velvety thickening and hyperpigmentation of the skin) which was more prominent around neck and in body folds including axillae, anticubital fossae and popliteal fossae. Both the affected individuals had prominent veins, rough dry skin and umbilical protrusion. Curly and dry hair was present with mild hypertrichosis over the scalp (Figure 2a).

Musculoskeletal examinations
Muscular hypertrophy was observed in skeletal muscles more prominently at arms and shin areas in both the affected individuals ( Figure 2b). Radiological examinations of bones in the affected individuals showed relatively hyper-density of metacarpals, phalanges, sclerotic hip bones and adjacent portion of both femurs. Slight hyper-density was observed in skull bone, however, vault thickness and para-nasal sinuses were normal in both the affected individuals. Chest X-rays revealed normal lung fields, normal cardiac shadow with slight hyperdensity of scapulae, humerus and clavicles. Magnetic Resonance Imaging examination (MRI) of the brain does not reveal generalized brain atrophy (Figure 2c).

Abdominal and cardiac examinations
Ultrasonography of the abdomen revealed moderate hepatomegaly with mild splenomegaly in both the affected individuals. There was no symptom of polycystic ovarian syndrome in 7 years affected female (VI-3), however her 11 years affected brother (VI-1) had moderate genital enlargement. Both the patients exhibited hypertrophic cardiomyopathy. Electrocardiography (ECG) of both the affected individuals showed sinus rhythm and right bundle branch pattern. Echocardiography of IV-1 revealed patent foramen ovale and mild left ventricular hypertrophy with intact inter-ventricular septum, while IV-3 showed small secundum atrial septal defect with left to right shunt, minimal right ventricular dilatation, and an intact inter-ventricular septum. There was no significant atrio-ventricular valve re-gurge. The left ventricular function was found normal (data not shown).

Biochemistry tests
The total serum bilirubin and serum electrolytes levels of both the affected individuals were within the normal range. Serum glutamate pyruvate, blood sugar, alkaline phosphatase and triglyceride levels were raised in both the affected individuals. High density lipoprotein levels were low in both the affected individuals than normal in both of them. The glycosylated hemoglobin (HbA 1 C) level of the affected individual IV-1 was slight higher than controlled diabetic range while that of IV-3 was in the non-diabetic level (Table 1).

Study limitations
The patients did not cooperate for tissue biopsy therefore histo-pathological examinations of the skin and sural nerves were not performed.

Mutation screening
To search for potential sequence variants, all coding exons and splice junction sites of AGPAT2, BSCL2, CAV1 and PTRF genes were sequenced initially in two affected and one unaffected individuals of the family. A homozygous deletion mutation of a single base cytosine at complementary DNA position 636 (c.636delC) was detected in exon 5 of BSCL2 gene in both the affected individuals ( Figure 3). This deletion probably shifted the reading frame leading to a premature stop codon and adding 20 non-specific amino acid residues BSCL2 protein (p.Tyr213ThrfsX20). Mutation analysis of BSCL2 exon 5 revealed c.636del in heterozygous state in obligate carriers and phenotypically unaffected individuals of the family. To ensure that c.636delC does not represent a neutral polymorphism in this population, a panel of 100 unrelated and ethnically matched control individuals was screened for this mutation, thus confirming that mutation was not present outside the family.

Discussion
Loss-of-function mutations in the BSCL2 gene cause a severe form of lipodystrophy, whilst characteristic gainof-function mutations are believed to be associated with aggregation of unfolded protein in endoplasmic reticulum resulting in neurodegeneration leading to a heterogeneous group of neuropathies [5]. The study presented here was a four generations consanguineous family, originated from Peshawar city Pakistan. Clinical features of the affected individuals resembled CGL2 phenotype. Moreover the first degree consanguinity of the parents and autosomal recessive mode of inheritance of the disease phenotype was a definite clue for a homozygous mutation. Mutations in BSCL2 leading to CGL2 phenotype have been identified worldwide [5,[14][15][16].
The generalized loss of adipose tissue, increased triglyceride levels and steatosis of the liver were comparable to a homozygous mutation p.Tyr213ThrfsX20 identified in an Indian family [5]. Early onset diabetes mellitus present in our patients were comparable with homozygous nonsense mutations identified in Chinese and severe insulin resistance in Japanese and Brazilian patients [9,14,15], however we did not perform the insulin resistance test in our patients. The hypertrophic cardiomyopathy identified in our cases was less severe as compared to Chinese patient caused by homozygous nonsense mutation [17]. There was mild mental retardation (IQ score 65-75) in both of our patients but the brain MRI did not reveal brain atrophy.
The variable features of neuropathies are mostly associated with heterozygous mutations in BSCL2 dHMN, Charcot-Marie-Tooth (CMT) and Silver syndromes [16,18,19]. In 2005, based on disease allele penetrance and severity of phenotype caused by heterozygous mutations in BSCL2 gene p.N88S in Austrian and German families, these patients were classified into six subclinical groups with overlapping features of HMN, CMT and Silver syndrome [20]. However, in 2009, Brusse et al. discovered a digenic inheritance of hereditary motor neuropathy in a large Dutch family with heterozygous mutation p.N88S in the BSCL2 gene and segregating autosomal dominant disease haplotype at chromosome 16p [21]. The phenotypic variability ranged from strictly neuropathic weakness to a spastic paraplegia with hereditary motor neuropathy presenting clinical phenotype similar to Silver syndrome [21]. Very recently another heterozygous mutation p.S90W identified in two Korean CMT type 2 disease patients [22] was associated with increased density of myelinated fibers. However, this feature was slightly different from the previously reported mutation p.S90L in three Italian patients representing CMT type 2 phenotype with pyramidal signs and subclinical sensory involvement on sural nerve biopsy [23].
Human BSCL2 gene encodes 398 or 462 amino acids seipin protein from either of the three transcripts 1.6 kb, 1.8 kb and 2.2 kb [24]. The 1.8 kb transcript is exclusively expressed in brain and testis while the other two are ubiquitously expressed [18]. Seipin protein is located in endoplasmic reticulum acting as a regulator of lipid catabolism and is essential for the differentiation of fat cells [18,24]. Studies have revealed role of seipin in proper lipid storage and regulation of cAMP/PKA-mediated lipolysis in adipose differentiation [25,26]. In adult mice brain bscl2 expression studies have suggested the possible involvement of seipin in central regulation of energy balance.
More than three hundred cases of BSCL have been reported in the medical literature with an estimated prevalence of 1 in 10 million people in USA [35]. However this condition is more common in other populations around the world like Lebanon, Brazil, Portugal and Sultanate of Oman with an estimated prevalence of 1:25000 to 1:1000000 [36]. The incidence data of BSCL and many other rare disorders are not available from Pakistan partly due to lack of disease registry database systems and nonavailability of neonatal screening programs in the hospitals.
Generally, in families segregating autosomal recessive disorders, high frequency of consanguineous marriages may increase the frequency of homozygotes in the population leading to increased incidence of certain lesions, their founder effect and also the appearance of new mutations [37]. Although most causative mutations in Mendelian diseases are reported in single families, certain mutations may occur more frequently in some populations than others. Few examples of such prevalent mutations may be observed in Wilson's disease [38], hemophilia [39], Hurler disease [37] and thalassemia [40]. Knowledge of the differences in the worldwide distribution of particular mutations may help to design shortcuts for genetic diagnosis and screening of relevant inherited diseases.

Conclusion
The identified mutation c.636delC (p.Tyr213ThrfsX20) in exon 5 of BSCL2 gene is the first report of CGL2 from Pakistan. The current study extends the body of evidence that describes the role of BSCL2 in congenital generalized lipodystrophy and association of loss-of-function mutations with severe lipodystrophy phenotype. The clinical features in our patients are similar to CGL2 phenotype but lack of motor neuropathies that are usually associated with Silver syndrome and Charcot-Marie-Tooth disease were not observed in our case. Understanding the molecular defects of BSCL2 gene in the patients can be helpful in the genetic counseling and prenatal diagnosis of affected families and may help to improve specific therapeutic interventions.