The Link of Inflammation and Neurodegeneration in Progressive Multiple Sclerosis
Multiple Sclerosis and Demyelinating Disorders 1 : (2016) // Article ID 9
Laburpena
Progressive multiple sclerosis (MS) is characterized clinically by the accumulation of neurological disability without
unequivocal recovery. Understanding the mechanisms that determine entering in this stage of the disease is a
great challenge in order to identify potential therapeutic targets. Recent advances in defining more accurately the
progressive phenotype of MS, have concluded that differences between primary and secondary progressive forms
of disease are relatively quantitative rather than qualitative. In both cases, a large number of molecular and cellular
events that might lead to neurodegeneration have been suggested. These include microglia activation, chronic
oxidative injury, accumulation of mitochondrial damage in axons, age-related disturbances and dysfunctional axonal
transport among others. Commonly, these pathological mechanisms have been considered as a result of
inflammatory demyelination but a primary degenerative condition has also been argued. It is now clear that both
events contribute to the progression of the disease, however their temporal sequence is still a matter of debate. A
detailed knowledge of progressive MS pathogenesis will allow to develop effective treatments for both progression
and symptom management that should be based on a combination of anti-inflammatory, regenerative and
neuroprotective strategies. In this review, we summarize current data and recent hypothesis about pathological
forces that drive progression of damage in MS, i.e. cumulative cortical demyelination and neurodegeneration as
well as diffuse alterations (microglia activation, axonal injury and atrophy) throughout white and grey matter in the
brain and spinal cord. Finally, we discuss the potential of the aforementioned proposed disease mechanisms with
regard to developing suitable therapies to halt the progression in MS pathology.