Klotho regulates the myogenic response of muscle to mechanical loading and exercise.

New Findings: What is the central question of this study? Does the hormone Klotho affect the myogenic response of muscle cells to mechanical loading or exercise? What is the main finding and its importance? Klotho prevents direct, mechanical activation of genes that regulate muscle differentiation, including genes that encode the myogenic regulatory factor myogenin and proteins in the canonical Wnt signalling pathway. Similarly, elevated levels of klotho expression in vivo prevent the exercise-induced increase in myogenin-expressing cells and reduce exercise-induced activation of the Wnt pathway. These findings demonstrate a new mechanism through which the responses of muscle to the mechanical environment are regulated.

Corneal ectasia associated with posterior lamellar opacification.

Background: Concomitant corneal ectasia and posterior lamellar corneal opacification is rare, and the genetic relationship between these two conditions is unclear. We report the genetic and clinical characterization of this phenotype in three unrelated individuals.

Materials And Methods: One previously reported affected individual and two unreported, unrelated, affected individuals were recruited for the study.

Macular corneal dystrophy with isolated peripheral Descemet membrane deposits.

Purpose: Macular Corneal Dystrophy (MCD, MIM #217800) is a category 1 corneal stromal dystrophy as per the current IC3D classification. While characterized by macular stromal deposits, we report a case of MCD type II with isolated bilateral peripheral Decemet membrane opacities, describing the clinical features and results of screening the gene and serum sulfated keratan sulfate levels.

Observations: A 68-year-old man with an unremarkable past medical and family history presented with bilateral progressive decrease in vision.

Alterations in GRHL2-OVOL2-ZEB1 axis and aberrant activation of Wnt signaling lead to altered gene transcription in posterior polymorphous corneal dystrophy.

Mutations associated with posterior polymorphous corneal dystrophy (PPCD) have been identified in three genes: ZEB1 (zinc-finger E-box binding homeobox 1) associated with sub-type PPCD3; OVOL2 (ovol-like zinc finger 2) associated with sub-type PPCD1; and GRHL2 (grainyhead like transcription factor 2) associated with sub-type PPCD4. Each of these genes encodes a transcription factor that regulates cell-state transitions. While the discovery of these PPCD-associated genes has greatly expanded our knowledge of the genetic basis of PPCD, the molecular mechanisms via which mutations in these genes lead to indistinguishable disease phenotypes have yet to be elucidated.