The nuclear lamina is a mesh-like network of fibres subjacent
to the inner nuclear membrane that is believed
to be involved in the specific spatial reorganisation of
chromatin after mitosis. To determine how the lamina
might be involved in chromatin reorganisation, we have
performed indirect immunofluorescence studies on quiescent
and proliferating human dermal fibroblasts
(HDF). Two monoclonal antibodies recognising human
lamins A and C and three different fixation methods
were employed. In indirect immunofluorescence studies,
cultures of quiescent cells displayed a uniform perinuclear
distribution of the antibodies. In proliferating cultures
two distinct populations of cells were observed:
one population displayed a typical perinuclear antibody
distribution, while the second population displayed an
unusual pattern consisting of a series of spots and fibres
within the nucleus. By inducing cell-cycle synchrony in
cultures we were able to determine that the unusual
internal distribution of the lamin antibodies was
restricted to cells in G1. Optical sectioning and 3-D
reconstruction of the lamina structures in G1 nuclei was
performed with a confocal laser scanning microscope
(CLSM). This revealed that the internal lamin structures
consisted of small foci and fibres proliferating
throughout the nucleus. These structures were shown to
be closely associated with areas of condensed chromatin
but not nuclear membrane. As cells progress towards S
phase the internal lamin foci disappear