Demographics of a Large International Population of Patients Affected by Leber's Hereditary Optic Neuropathy.

PURPOSE: To study the demographics of Leber's hereditary optic neuropathy (LHON) using a large international database of people affected by LHON. DESIGN: Cross-sectional study. PARTICIPANTS: One thousand five hundred seventeen people affected by LHON with a known pathogenic genetic mutation. METHODS: Self-reported genetic and demographic data were collected. The data were de-identified and then analyzed. MAIN OUTCOME MEASURES: Leber's hereditary optic neuropathy mutation, gender, age at vision loss onset, and geographical region. RESULTS: The data showed that both females and males can experience symptom onset at any age. We found a 3:1 male-to-female ratio. Interestingly, at younger than 5 years and older than 45 years, the male-to-female ratio of those becoming affected was approximately 1:1. A dramatic peak in age at onset of vision loss was found among males between 14 and 26 years of age. Disease onset in females occurred across all age groups, without any comparable dramatic peak of onset age. This study found that 10% of individuals become affected with LHON after 50 years of age. According to the literature, we found that the m.11778, m.14484, and m.3460 mutations were the most common LHON point mutations in both males and females, with a similar age at onset distribution. CONCLUSIONS: This was the largest study of LHON demographics to date. It showed that women carrying an LHON mutation are at higher risk of losing vision than is generally expected. Unlike the traditional 5:1 male-to-female ratio commonly reported in the literature, we found a 3:1 male-to-female ratio. Earlier studies may have harbored an ascertainment bias of overemphasizing the confirmation of this being a disease of young men. However, our data suggest that LHON is a disease that affects both females and males of all ages. This should prompt physicians to conduct genetic testing for LHON in all patients who meet the clinical criteria, regardless of whether they fit the demographics traditionally associated with the disease. Counseling about LHON should be offered to all maternal bloodline relatives, females and males of all ages, because they are at risk of sudden-onset legal blindness.

Differential regulation of E-cadherin and alpha-smooth muscle actin by BMP 7 in human renal proximal tubule epithelial cells and its implication in renal fibrosis.

Chronic kidney diseases are characterized by progressive tubulointerstitial fibrosis, and TGFbeta1 plays a crucial role in its development. Bone morphogenic protein 7 (BMP 7), another member of the TGF superfamily, antagonized the profibrotic effects of TGFbeta1, including epithelial mesenchymal transition and E-cadherin loss, in the previous studies from animal models. We investigated the effect of BMP 7 on TGFbeta1-mediated E-cadherin loss in two different transformed human adult proximal tubule epithelia. We found that BMP 7 not only failed to prevent TGFbeta1-mediated E-cadherin loss but itself downregulated E-cadherin levels and that it had an additive effect with TGFbeta1 in inducing E-cadherin loss. The downregulation of E-cadherin by BMP 7 was mediated through the Smad1/5 pathway. BMP 7-mediated E-cadherin loss was not followed by de novo alpha-smooth muscle actin (alpha-SMA) expression (a marker of myofibroblastic phenotype), which was due to the concurrent induction of Inhibitor of DNA binding 1 (Id1, a basic helix loop helix class transcriptional regulator) through a non-Smad pathway. Concurrent treatment of BMP 7 and TGFbeta1 prevented TGFbeta1-mediated alpha-SMA induction. In summary, our results suggest that E-cadherin loss, the key feature of epithelial mesenchymal transition, will not necessarily be followed by total phenotype change; rather, cells may undergo some loss of phenotypic marker in a ligand-dependent manner and participate in reparative processes. The inhibition of de novo expression of alpha-SMA could explain the antifibrotic effect of BMP 7. Id1 might play a crucial role in maintaining proximal tubule epithelial cell phenotype and its signaling regulation could be a potential therapeutic target.

TGF-beta activates ERK5 in human renal epithelial cells.

The role of the MAP kinase, extracellular signal-regulated kinase 5 (ERK5) remains unknown, however it is involved in cell differentiation and survival as highlighted by the embryonic lethality of the ERK5 knockout. ERK5 can be activated by growth factors and other extracellular signals. TGF-beta, a powerful controller of epithelial cell phenotype, is known to activate the MAP kinase, ERK1/2 however its effect on ERK5 remains unknown. This study demonstrates, fort the first time, ERK5 activation by TGF-beta, observed in both transformed and primary adult human PTEC; activation required ALK-5 receptor activity. In addition this work demonstrates expression of myocyte enhancer factor-2 (MEF2C) by PTEC and that TGF-beta increased the association of MEK5 with phospho-ERK5 and MEF2C. ERK5 activation by either TGF-beta or epidermal growth factor (EGF) was also inhibited by the p38 MAP kinase inhibitor, SB-202190.

Role played by disabled-2 in albumin induced MAP Kinase signalling.

Albumin has been shown to activate the mitogen activated protein kinase (MAPK) pathway in proximal tubular cells (PTECs) of the kidney. Megalin, the putative receptor for albumin has potential signalling properties. However, the mechanisms by which megalin signals are unclear. The adaptor phosphoprotein Disabled-2 (Dab2) is known to interact with the cytoplasmic tail of megalin and may be involved in albumin-mediated MAPK signalling. In this study, we investigated the role of Dab2 in albumin-mediated MAPK signalling and further studied the role of Dab2 in albumin-induced TGFbeta-1 secretion, a MAPK dependent event. We used RNA interference to knockdown Dab2 protein abundance in HKC-8 cells a model of human PTECs. Albumin activated ERK1,2 and Elk-1 in a MEK-1 dependent manner and resulted in secretion of TGFbeta-1. In the absence of albumin, knockdown of Dab2 resulted in a trend towards increase in pERK1,2 consistent with its putative role as an inhibitor of cell proliferation. However albumin-induced ERK1,2 activation was completely abolished by Dab2 knockdown. Dab2 knockdown did not however result in inhibition of albumin-induced TGFbeta-1 secretion. These results suggest that Dab2 is a ligand dependent bi-directional regulator of ERK1,2 activity by demonstrating that in addition to its more traditional role as an inhibitor of ERK1,2 it may also activate ERK1,2.