OBJECTIVE: To correlate the presence of renal agenesis/dysgenesis to the prevalence of KAL1 gene defects in patients with sporadic Kallmann syndrome (KS). DESIGN: Prospective assessment of renal structure and DNA sequence analysis of the KAL1 gene. SETTING: Outpatient clinics of the divisions of endocrinology of university hospitals. PATIENT(S): Sixteen male patients with sporadic KS. INTERVENTION(S): Assessment of renal structure by abdominal ultrasounds scans and DNA extraction, polymerase chain reaction amplification, and DNA sequence analysis of all 14 exons of the KAL1 gene. MAIN OUTCOME MEASURE(S): KAL 1 gene structure and presence of renal dysgenesis. RESULT(S): Renal dysgenesis was identified in only two of 16 KS patients. Genetic defects were found in only two patients with KS, that is, in those with the identified renal dysgenesis. The first gene defect was identified in a patient with associated right renal agenesis who had two point mutations in the KAL1 gene: the first was a G to A transition in exon 11, turning codon 514 encoding glutamic acid into lysine; and the second was a G to A transition in exon 13, turning codon 660 encoding alanine into threonine. The second gene defect was identified in a patient with ichthyosis, right renal agenesis, and mirror movements of the upper limbs (synkinesia) and comprised a deletion of exons 5-10 of the KAL1 gene and a complete deletion of the steroid sulphatase gene. CONCLUSION(S): The phenotype of renal agenesis/dysgenesis strongly indicates the existence of KAL1 gene defects in the genotype of patients with sporadic KS, providing evidence for the X-linked mode of inheritance and offering the opportunity for genetic counseling.
OBJECTIVE: To correlate the presence of renal agenesis/dysgenesis to the prevalence of KAL1 gene defects in patients with sporadic Kallmann syndrome (KS). DESIGN: Prospective assessment of renal structure and DNA sequence analysis of the KAL1 gene. SETTING:Outpatient clinics of the divisions of endocrinology of university hospitals. PATIENT(S): Sixteen male patients with sporadic KS. INTERVENTION(S): Assessment of renal structure by abdominal ultrasounds scans and DNA extraction, polymerase chain reaction amplification, and DNA sequence analysis of all 14 exons of the KAL1 gene. MAIN OUTCOME MEASURE(S): KAL 1 gene structure and presence of renal dysgenesis. RESULT(S): Renal dysgenesis was identified in only two of 16 KS patients. Genetic defects were found in only two patients with KS, that is, in those with the identified renal dysgenesis. The first gene defect was identified in a patient with associated right renal agenesis who had two point mutations in the KAL1 gene: the first was a G to A transition in exon 11, turning codon 514 encoding glutamic acid into lysine; and the second was a G to A transition in exon 13, turning codon 660 encoding alanine into threonine. The second gene defect was identified in a patient with ichthyosis, right renal agenesis, and mirror movements of the upper limbs (synkinesia) and comprised a deletion of exons 5-10 of the KAL1 gene and a complete deletion of the steroid sulphatase gene. CONCLUSION(S): The phenotype of renal agenesis/dysgenesis strongly indicates the existence of KAL1 gene defects in the genotype of patients with sporadic KS, providing evidence for the X-linked mode of inheritance and offering the opportunity for genetic counseling.
Authors: Ulrich Boehm; Pierre-Marc Bouloux; Mehul T Dattani; Nicolas de Roux; Catherine Dodé; Leo Dunkel; Andrew A Dwyer; Paolo Giacobini; Jean-Pierre Hardelin; Anders Juul; Mohamad Maghnie; Nelly Pitteloud; Vincent Prevot; Taneli Raivio; Manuel Tena-Sempere; Richard Quinton; Jacques Young Journal: Nat Rev Endocrinol Date: 2015-07-21 Impact factor: 43.330
Authors: Vassos Neocleous; Pavlos Fanis; Meropi Toumba; George A Tanteles; Melpo Schiza; Feride Cinarli; Nicolas C Nicolaides; Anastasis Oulas; George M Spyrou; Christos S Mantzoros; Dimitrios Vlachakis; Nicos Skordis; Leonidas A Phylactou Journal: Front Endocrinol (Lausanne) Date: 2020-08-28 Impact factor: 5.555