Unique and Shared Functions of Nuclear Lamina LEM Domain Proteins in Drosophila

Abstract: The nuclear lamina is an extensive protein network that contributes to nuclear structure and function. LEM domain (LAP2, emerin, MAN1 domain, LEM-D) proteins are components of the nuclear lamina, identified by a shared 45-amino-acid motif that binds Barrier-to-autointegration factor (BAF), a chromatin-interacting protein. Drosophila melanogaster has three nuclear lamina LEM-D proteins, named Otefin (Ote), Bocksbeutel (Bocks), and dMAN1. Although these LEM-D proteins are globally expressed, loss of either Ote o… Show more

“…For example, LAP2α–deficient and emerin-deficient muscles both have higher numbers of satellite stem cells and altered myoblast differentiation associated with mis-regulation of the Rb1/E2F pathway [47, 54]. Second, loss of two LEM-D proteins causes phenotypes significantly more severe than loss of single LEM-D proteins [44, 45, 52, 60, 69]. Functional redundancy is perhaps expected between LEM-D proteins in the same group, but not between LEM-D proteins in different groups due to their limited homology outside of the LEM-D.…”

“…Functional redundancy is perhaps expected between LEM-D proteins in the same group, but not between LEM-D proteins in different groups due to their limited homology outside of the LEM-D. However functional overlap between group I and group II LEM-D proteins was first described in worms [44, 45] and later found in other organisms [43, 52, 60, 69]. A reasonable explanation for this overlap is the additive loss of the common interaction with BAF.…”

“…Yet, mounting evidence suggests that redundancy extends beyond BAF association. Genetic studies in flies showed that loss of any two of the three nuclear lamina LEM-D proteins is lethal; the timing of death varies depends upon which specific LEM-D proteins were lost [69]. Furthermore, the mutant phenotypes of lem-d double mutants differed from those of baf mutants, emphasizing that shared functions of the fly LEM-D proteins are not limited to BAF recruitment.…”

“…On one hand, these findings suggest that loss-of-function phenotypes associated with defects in a single LEM-D protein may be tissue-restricted because other members of the LEM-D family are present at sufficient levels in other tissues to maintain critical functions of the nuclear lamina. Nevertheless, defects caused by loss of individual LEM-D proteins also suggest certain functions are unique and cannot be compensated by other family members [43, 52, 60, 69]. Thus, only some LEM-D protein functions are shared with other family members.…”

Networking in the nucleus: a spotlight on LEM-domain proteins

“…For example, LAP2α–deficient and emerin-deficient muscles both have higher numbers of satellite stem cells and altered myoblast differentiation associated with mis-regulation of the Rb1/E2F pathway [47, 54]. Second, loss of two LEM-D proteins causes phenotypes significantly more severe than loss of single LEM-D proteins [44, 45, 52, 60, 69]. Functional redundancy is perhaps expected between LEM-D proteins in the same group, but not between LEM-D proteins in different groups due to their limited homology outside of the LEM-D.…”

“…Functional redundancy is perhaps expected between LEM-D proteins in the same group, but not between LEM-D proteins in different groups due to their limited homology outside of the LEM-D. However functional overlap between group I and group II LEM-D proteins was first described in worms [44, 45] and later found in other organisms [43, 52, 60, 69]. A reasonable explanation for this overlap is the additive loss of the common interaction with BAF.…”

“…Yet, mounting evidence suggests that redundancy extends beyond BAF association. Genetic studies in flies showed that loss of any two of the three nuclear lamina LEM-D proteins is lethal; the timing of death varies depends upon which specific LEM-D proteins were lost [69]. Furthermore, the mutant phenotypes of lem-d double mutants differed from those of baf mutants, emphasizing that shared functions of the fly LEM-D proteins are not limited to BAF recruitment.…”

“…On one hand, these findings suggest that loss-of-function phenotypes associated with defects in a single LEM-D protein may be tissue-restricted because other members of the LEM-D family are present at sufficient levels in other tissues to maintain critical functions of the nuclear lamina. Nevertheless, defects caused by loss of individual LEM-D proteins also suggest certain functions are unique and cannot be compensated by other family members [43, 52, 60, 69]. Thus, only some LEM-D protein functions are shared with other family members.…”

Networking in the nucleus: a spotlight on LEM-domain proteins

“…In many cases, LEM-D proteins interact with the same regulatory proteins, possibly due to conformational plasticity imparted by the presence of unstructured regions within these proteins (Berk et al, 2014). Such sharing of protein partners provides a framework for understanding why individual loss of these globally expressed LEM-D proteins causes limited developmental defects (Barton et al, 2014; Huber et al, 2009; Liu et al, 2003; Reil and Dabauvalle, 2013). Indeed, loss of single LEM-D proteins causes tissue-restricted human diseases, including bone density disorders, cardiomyopathies and muscular dystrophies (Worman et al, 2010).…”

Drosophila male and female germline stem cell niches require the nuclear lamina protein Otefin

Immunohistochemical Analysis of Nuclear Lamina Structures in the Drosophila Ovary Using CRISPR-Tagged Genes