Frontiers in Medicine (Jun 2021)

Saudi Familial Hypercholesterolemia Patients With Rare LDLR Stop Gain Variant Showed Variable Clinical Phenotype and Resistance to Multiple Drug Regimen

  • Zuhier Ahmed Awan,
  • Zuhier Ahmed Awan,
  • Omran M. Rashidi,
  • Omran M. Rashidi,
  • Omran M. Rashidi,
  • Bandar Ali Al-Shehri,
  • Bandar Ali Al-Shehri,
  • Kaiser Jamil,
  • Ramu Elango,
  • Ramu Elango,
  • Jumana Y. Al-Aama,
  • Jumana Y. Al-Aama,
  • Robert A. Hegele,
  • Babajan Banaganapalli,
  • Babajan Banaganapalli,
  • Noor A. Shaik,
  • Noor A. Shaik

DOI
https://doi.org/10.3389/fmed.2021.694668
Journal volume & issue
Vol. 8

Abstract

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Familial hypercholesterolemia (FH), a well-known lipid disease caused by inherited genetic defects in cholesterol uptake and metabolism is underdiagnosed in many countries including Saudi Arabia. The present study aims to identify the molecular basis of severe clinical manifestations of FH patients from unrelated Saudi consanguineous families. Two Saudi families with multiple FH patients fulfilling the combined FH diagnostic criteria of Simon Broome Register, and the Dutch Lipid Clinic Network (DLCN) were recruited. LipidSeq, a targeted resequencing panel for monogenic dyslipidemias, was used to identify causative pathogenic mutation in these two families and in 92 unrelated FH cases. Twelve FH patients from two unrelated families were sharing a very rare, pathogenic and founder LDLR stop gain mutation i.e., c.2027delG (p.Gly676Alafs*33) in both the homozygous or heterozygous states, but not in unrelated patients. Based on the variant zygosity, a marked phenotypic heterogeneity in terms of LDL-C levels, clinical presentations and resistance to anti-lipid treatment regimen (ACE inhibitors, β-blockers, ezetimibe, statins) of the FH patients was observed. This loss-of-function mutation is predicted to alter the free energy dynamics of the transcribed RNA, leading to its instability. Protein structural mapping has predicted that this non-sense mutation eliminates key functional domains in LDLR, which are essential for the receptor recycling and LDL particle binding. In conclusion, by combining genetics and structural bioinformatics approaches, this study identified and characterized a very rare FH causative LDLR pathogenic variant determining both clinical presentation and resistance to anti-lipid drug treatment.

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