DNA Methylation, Cellular Stress Response and Expression of Inner Nuclear Membrane Proteins

Levesque, Steve

04 May 2011

Hutchinson-Gilford Progeria Syndrome is described as a series of mutations within the lamin A gene leading to the accumulation of progerin in the nucleus, contributing to premature aging and affecting the epigenetic control. Epigenetic control, such as DNA methylation, relies on DNA methyltransferase enzymes. In human cells, heat shock (HS) leads to the formation of nuclear stress bodies (nSBs); ribonucleoprotein aggregates of Sat III RNA and RNA-binding proteins. The objectives of this study were to determine if epigenetic status induces varying responses to HS and assess the variability of nuclear proteins in similar conditions. Results show epigenetic modifications do not prevent a stress response; however the extent may be affected. In addition the functions of most nuclear antigens were not affected. It is most likely the sum of interactions at the inner nuclear membrane and nuclear lamina interface that result in nuclear strength pertaining to lamin A.

Epigenetics

DNA methylation

Nuclear stress bodies

Inner nuclear membrane (INM)

Lamin A

Lamin B

Emerin

Satellite III (Sat III)

Stress response

Heat shock (HS)

2H12

Lamina associated polypeptide 2 (Lap2)

Fibrillarin

Laminopathies

DNA Methylation, Cellular Stress Response and Expression of Inner Nuclear Membrane Proteins

Levesque, Steve

January 2011

Hutchinson-Gilford Progeria Syndrome is described as a series of mutations within the lamin A gene leading to the accumulation of progerin in the nucleus, contributing to premature aging and affecting the epigenetic control. Epigenetic control, such as DNA methylation, relies on DNA methyltransferase enzymes. In human cells, heat shock (HS) leads to the formation of nuclear stress bodies (nSBs); ribonucleoprotein aggregates of Sat III RNA and RNA-binding proteins. The objectives of this study were to determine if epigenetic status induces varying responses to HS and assess the variability of nuclear proteins in similar conditions. Results show epigenetic modifications do not prevent a stress response; however the extent may be affected. In addition the functions of most nuclear antigens were not affected. It is most likely the sum of interactions at the inner nuclear membrane and nuclear lamina interface that result in nuclear strength pertaining to lamin A.

Epigenetics

DNA methylation

Nuclear stress bodies

Inner nuclear membrane (INM)

Lamin A

Lamin B

Emerin

Satellite III (Sat III)

Stress response

Heat shock (HS)

2H12

Lamina associated polypeptide 2 (Lap2)

Fibrillarin

Laminopathies

Intracellular trafficking of protease : Activated Receptor 2 (PAR2) by members of sorting nexins family

Kasakov, Velichko M.

06 1900

No description available.

Récepteurs couplés à la protéine G

Sorting nexins

Récepteurs activés par la protéase

Translocation nucléaire

Membrane nucléaire

Signal nucléaire

G – Protein coupled receptors

Protease-activated receptors

Nuclear translocation

Nuclear membrane

Investigating the effects of nuclear envelope proteins on nuclear structure and organization in Aspergillus nidulans

Chemudupati, Mahesh

January 2016

No description available.

Biology

Cellular Biology

Genetics

Microbiology

Molecular Biology