Some LMNA mutations responsible for insulin-resistant lipodystrophic syndromes are associated with peripheral subcutaneous lipoatrophy and faciocervical fat accumulation.
Thigh SAT from subjects with FPLD2 has lower expression of MCT8 and higher DIO2 expression and activity than abdominal SAT, suggesting that changes in local TH metabolism may occur in areas with lipoatrophy.
In subjects with generalized lipoatrophy, either congenital (13 case subjects) or acquired (14 case subjects), or Barraquer-Simon syndrome (2 case subjects), the entire LMNA coding sequence was normal.
SHORT syndrome is an autosomal dominant condition associated severe insulin resistance (IR) and lipoatrophy due to post-receptor defect in insulin signaling involving phosphoinositide-3-kinase regulatory subunit 1 (PIK3R1), where no clear treatment guidelines are available.
First, we performed an association study between the IR gene and congenital lipoatrophy in two families with consanguineous parents and one or two affected children (patients D1, D2, and D3).
Several members of this family also carry a unique variant insulin receptor gene, which, however, could not be linked to a specific alteration in receptor expression or the presence of lipoatrophy.(ABSTRACT TRUNCATED AT 250 WORDS)
We identified two new PTRF homozygous mutations (p.Asp59Val or p.Gln157Hisfs*52) in four patients with CGL4 presenting with generalized lipoatrophy and associated metabolic abnormalities.
Treatment with thiazolidinediones (TZD) in Bscl2(-/-) mice increases adipose tissue mass and partially rescues the metabolic complications associated with BSCL, highlighting that lipoatrophy is the major cause of the BSCL phenotype.
Congenital generalized lipodystrophy or Berardinelli-Seip syndrome, autosomal recessive, is characterized by a complete early lipoatrophy and severe insulin resistance and results, in most cases, from mutations either in the seipin gene of unknown function or AGPAT2 encoding an enzyme involved in triacylglycerol synthesis.