Quality of life of patients operated for lumbar stenosis at the Yaoundé Central Hospital.

Several studies have been conducted in many African countries on lumbar stenosis but none on the quality of life of patients after surgery. We conducted this study to evaluate the quality of life of patients following surgery indicated for lumbar stenosis. A cross-sectional study from January 2010 to December 2015 in the neurosurgery department of the Yaoundé Central Hospital.

The NH2 tail of the novel histone variant H2BFWT exhibits properties distinct from conventional H2B with respect to the assembly of mitotic chromosomes.

We have studied the functional and structural properties of nucleosomes reconstituted with H2BFWT, a recently identified putative histone variant of the H2B family with totally unknown function. We show that H2BFWT can replace the conventional histone H2B in the nucleosome. The presence of H2BFWT did not affect the overall structure of the nucleosome, and the H2BFWT nucleosomes exhibited the same stability as conventional nucleosomes.

The zinc- and calcium-binding S100B interacts and co-localizes with IQGAP1 during dynamic rearrangement of cell membranes.

The Zn(2+)- and Ca(2+)-binding S100B protein is implicated in multiple intracellular and extracellular regulatory events. In glial cells, a relationship exists between cytoplasmic S100B accumulation and cell morphological changes. We have identified the IQGAP1 protein as the major cytoplasmic S100B target protein in different rat and human glial cell lines in the presence of Zn(2+) and Ca(2+).

The giant protein AHNAK is a specific target for the calcium- and zinc-binding S100B protein: potential implications for Ca2+ homeostasis regulation by S100B.

Transformation of rat embryo fibroblast clone 6 cells by ras and temperature-sensitive p53val(135) is reverted by ectopic expression of the calcium- and zinc-binding protein S100B. In an attempt to define the molecular basis of the S100B action, we have identified the giant phosphoprotein AHNAK as the major and most specific Ca(2+)-dependent S100B target protein in rat embryo fibroblast cells. We next characterized AHNAK as a major Ca(2+)-dependent S100B target protein in the rat glial C6 and human U-87MG astrocytoma cell lines.

S100A6 and S100A11 are specific targets of the calcium- and zinc-binding S100B protein in vivo.

In solution, S100B protein is a noncovalent homodimer composed of two subunits associated in an antiparallel manner. Upon calcium binding, the conformation of S100B changes dramatically, leading to the exposure of hydrophobic residues at the surface of S100B. The residues in the C-terminal domain of S100B encompassing Phe(87) and Phe(88) have been implicated in interaction with target proteins.