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Your search keyword '"Lee, John M."' showing total 16 results
Start Over Author "Lee, John M." Publication Type Electronic Resources
16 results on '"Lee, John M."'

1. Modulation of LMNA splicing as a strategy to treat prelamin A diseases.

Author

Lee, John M, Lee, John M, Nobumori, Chika, Tu, Yiping, Choi, Catherine, Yang, Shao H, Jung, Hea-Jin, Vickers, Timothy A, Rigo, Frank, Bennett, C Frank, Young, Stephen G, Fong, Loren G, Lee, John M, Lee, John M, Nobumori, Chika, Tu, Yiping, Choi, Catherine, Yang, Shao H, Jung, Hea-Jin, Vickers, Timothy A, Rigo, Frank, Bennett, C Frank, Young, Stephen G, and Fong, Loren G

Abstract

The alternatively spliced products of LMNA, lamin C and prelamin A (the precursor to lamin A), are produced in similar amounts in most tissues and have largely redundant functions. This redundancy suggests that diseases, such as Hutchinson-Gilford progeria syndrome (HGPS), that are caused by prelamin A-specific mutations could be treated by shifting the output of LMNA more toward lamin C. Here, we investigated mechanisms that regulate LMNA mRNA alternative splicing and assessed the feasibility of reducing prelamin A expression in vivo. We identified an exon 11 antisense oligonucleotide (ASO) that increased lamin C production at the expense of prelamin A when transfected into mouse and human fibroblasts. The same ASO also reduced the expression of progerin, the mutant prelamin A protein in HGPS, in fibroblasts derived from patients with HGPS. Mechanistic studies revealed that the exon 11 sequences contain binding sites for serine/arginine-rich splicing factor 2 (SRSF2), and SRSF2 knockdown lowered lamin A production in cells and in murine tissues. Moreover, administration of the exon 11 ASO reduced lamin A expression in wild-type mice and progerin expression in an HGPS mouse model. Together, these studies identify ASO-mediated reduction of prelamin A as a potential strategy to treat prelamin A-specific diseases.

Published
2016

2. Reciprocal knock-in mice to investigate the functional redundancy of lamin B1 and lamin B2.

Author

Lee, John M, Lee, John M, Tu, Yiping, Tatar, Angelica, Wu, Daniel, Nobumori, Chika, Jung, Hea-Jin, Yoshinaga, Yuko, Coffinier, Catherine, de Jong, Pieter J, Fong, Loren G, Young, Stephen G, Lee, John M, Lee, John M, Tu, Yiping, Tatar, Angelica, Wu, Daniel, Nobumori, Chika, Jung, Hea-Jin, Yoshinaga, Yuko, Coffinier, Catherine, de Jong, Pieter J, Fong, Loren G, and Young, Stephen G

Abstract

Lamins B1 and B2 (B-type lamins) have very similar sequences and are expressed ubiquitously. In addition, both Lmnb1- and Lmnb2-deficient mice die soon after birth with neuronal layering abnormalities in the cerebral cortex, a consequence of defective neuronal migration. The similarities in amino acid sequences, expression patterns, and knockout phenotypes raise the question of whether the two proteins have redundant functions. To investigate this topic, we generated "reciprocal knock-in mice"-mice that make lamin B2 from the Lmnb1 locus (Lmnb1(B2/B2)) and mice that make lamin B1 from the Lmnb2 locus (Lmnb2(B1/B1)). Lmnb1(B2/B2) mice produced increased amounts of lamin B2 but no lamin B1; they died soon after birth with neuronal layering abnormalities in the cerebral cortex. However, the defects in Lmnb1(B2/B2) mice were less severe than those in Lmnb1-knockout mice, indicating that increased amounts of lamin B2 partially ameliorate the abnormalities associated with lamin B1 deficiency. Similarly, increased amounts of lamin B1 in Lmnb2(B1/B1) mice did not prevent the neurodevelopmental defects elicited by lamin B2 deficiency. We conclude that lamins B1 and B2 have unique roles in the developing brain and that increased production of one B-type lamin does not fully complement loss of the other.

Published
2014

3. Do lamin B1 and lamin B2 have redundant functions?

Author

Lee, John M, Lee, John M, Jung, Hea-Jin, Fong, Loren G, Young, Stephen G, Lee, John M, Lee, John M, Jung, Hea-Jin, Fong, Loren G, and Young, Stephen G

Abstract

Lamins B1 and B2 have a high degree of sequence similarity and are widely expressed from the earliest stages of development. Studies of Lmnb1 and Lmnb2 knockout mice revealed that both of the B-type lamins are crucial for neuronal migration in the developing brain. These observations naturally posed the question of whether the two B-type lamins might play redundant functions in the development of the brain. To explore that issue, Lee and coworkers generated "reciprocal knock-in mice" (knock-in mice that produce lamin B1 from the Lmnb2 locus and knock-in mice that produce lamin B2 from the Lmnb1 locus). Both lines of knock-in mice manifested neurodevelopmental abnormalities similar to those in conventional knockout mice, indicating that lamins B1 and B2 have unique functions and that increased production of one B-type lamin cannot compensate for the loss of the other.

Published
2014

4. Reciprocal knock-in mice to investigate the functional redundancy of lamin B1 and lamin B2.

Author

Lee, John M, Magin, Thomas M1, Lee, John M, Tu, Yiping, Tatar, Angelica, Wu, Daniel, Nobumori, Chika, Jung, Hea-Jin, Yoshinaga, Yuko, Coffinier, Catherine, de Jong, Pieter J, Fong, Loren G, Young, Stephen G, Lee, John M, Magin, Thomas M1, Lee, John M, Tu, Yiping, Tatar, Angelica, Wu, Daniel, Nobumori, Chika, Jung, Hea-Jin, Yoshinaga, Yuko, Coffinier, Catherine, de Jong, Pieter J, Fong, Loren G, and Young, Stephen G

Abstract

Lamins B1 and B2 (B-type lamins) have very similar sequences and are expressed ubiquitously. In addition, both Lmnb1- and Lmnb2-deficient mice die soon after birth with neuronal layering abnormalities in the cerebral cortex, a consequence of defective neuronal migration. The similarities in amino acid sequences, expression patterns, and knockout phenotypes raise the question of whether the two proteins have redundant functions. To investigate this topic, we generated "reciprocal knock-in mice"-mice that make lamin B2 from the Lmnb1 locus (Lmnb1(B2/B2)) and mice that make lamin B1 from the Lmnb2 locus (Lmnb2(B1/B1)). Lmnb1(B2/B2) mice produced increased amounts of lamin B2 but no lamin B1; they died soon after birth with neuronal layering abnormalities in the cerebral cortex. However, the defects in Lmnb1(B2/B2) mice were less severe than those in Lmnb1-knockout mice, indicating that increased amounts of lamin B2 partially ameliorate the abnormalities associated with lamin B1 deficiency. Similarly, increased amounts of lamin B1 in Lmnb2(B1/B1) mice did not prevent the neurodevelopmental defects elicited by lamin B2 deficiency. We conclude that lamins B1 and B2 have unique roles in the developing brain and that increased production of one B-type lamin does not fully complement loss of the other.

Published
2014

5. Nuclear lamins and neurobiology.

Author

Young, Stephen G, Young, Stephen G, Jung, Hea-Jin, Lee, John M, Fong, Loren G, Young, Stephen G, Young, Stephen G, Jung, Hea-Jin, Lee, John M, and Fong, Loren G

Abstract

Much of the work on nuclear lamins during the past 15 years has focused on mutations in LMNA (the gene for prelamin A and lamin C) that cause particular muscular dystrophy, cardiomyopathy, partial lipodystrophy, and progeroid syndromes. These disorders, often called "laminopathies," mainly affect mesenchymal tissues (e.g., striated muscle, bone, and fibrous tissue). Recently, however, a series of papers have identified important roles for nuclear lamins in the central nervous system. Studies of knockout mice uncovered a key role for B-type lamins (lamins B1 and B2) in neuronal migration in the developing brain. Also, duplications of LMNB1 (the gene for lamin B1) have been shown to cause autosome-dominant leukodystrophy. Finally, recent studies have uncovered a peculiar pattern of nuclear lamin expression in the brain. Lamin C transcripts are present at high levels in the brain, but prelamin A expression levels are very low-due to regulation of prelamin A transcripts by microRNA 9. This form of prelamin A regulation likely explains why "prelamin A diseases" such as Hutchinson-Gilford progeria syndrome spare the central nervous system. In this review, we summarize recent progress in elucidating links between nuclear lamins and neurobiology.

Published
2014

6. Boundary regularity of conformally compact Einstein metrics

Author

Chrusciel, Piotr T., Delay, Erwann, Lee, John M., Skinner, Dale N., Chrusciel, Piotr T., Delay, Erwann, Lee, John M., and Skinner, Dale N.

Abstract

We show that C^2 conformally compact Riemannian Einstein metrics have conformal compactifications that are smooth up to the boundary in dimension 3 and all even dimensions, and polyhomogeneous in odd dimensions greater than 3., Comment: Latex2e, 25 pages. This is the final version accepted for publication in the Journal of Differential Geometry

Published
2004

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