3 research outputs found
A review on medicinal plants used for treating ototoxicity and acoustic trauma induced hearing loss
Hearing loss induced by chemotherapy and acoustic trauma is mainly associated with two factors, free radical formation and apoptosis pathway activation. Despite numerous efforts on reducing the effects of these factors, no definite strategy is still determined to interfere with and control these processes. In recent studies, various protective agents, including antioxidants have been used on animal models, to inhibit the formation of free radicals thus improving hearing loss.In this review article we will discuss the role of traditional herbal medicine in treatment of noise/drug induced hearing loss, focusing on medicinal plants’ active substances,as well as their mechanisms of action in reducing or preventing the formation of free radicals thus increasing the rate of survival of cochlea cells. Data have been gathered since year 2000, from scientific publications including the following keywords: deafness, drug toxicity, acute trauma, medicinal herbs and oxidative stress. The study includes all herbs and medicinal plants that have been experimentally used in studies on animal models and clinical trials. The results from these studies indicate the effectiveness of most of these herbs and their active substances through their antioxidative properties. Medicinal plants reported in this review can thus be considered as effective remedies intreating noise/drug induced hearing loss,yet further studies need to be done
A review on medicinal plants used for treating ototoxicity and acoustic trauma induced hearing loss
Hearing loss induced by chemotherapy and acoustic trauma is mainly associated with two factors, free radical formation and apoptosis pathway activation. Despite numerous efforts on reducing the effects of these factors, no definite strategy is still determined to interfere with and control these processes. In recent studies, various protective agents, including antioxidants have been used on animal models, to inhibit the formation of free radicals thus improving hearing loss.In this review article we will discuss the role of traditional herbal medicine in treatment of noise/drug induced hearing loss, focusing on medicinal plants’ active substances,as well as their mechanisms of action in reducing or preventing the formation of free radicals thus increasing the rate of survival of cochlea cells. Data have been gathered since year 2000, from scientific publications including the following keywords: deafness, drug toxicity, acute trauma, medicinal herbs and oxidative stress. The study includes all herbs and medicinal plants that have been experimentally used in studies on animal models and clinical trials. The results from these studies indicate the effectiveness of most of these herbs and their active substances through their antioxidative properties. Medicinal plants reported in this review can thus be considered as effective remedies intreating noise/drug induced hearing loss,yet further studies need to be done.publishersversionpublishe
Investigating the association of endocytic trafficking regulator CD2AP gene variant K633R and the risk of developing Alzheimer's disease
In the central nervous system, excitatory synaptic transmission mainly takes place at dendritic spines,
structures rich in actin. Actin stabilizes and regulates dendritic spine structures. The stabilization of
spines is essential for the maintenance of long-term memory and proper neural circuit formation.
Therefore, actin plays a central role in synapse assembly and function. In late-onset Alzheimer’s disease
(LOAD) the earliest memory alterations are due to synaptic dysfunction, yet the causal mechanisms are
not known. Amyloid-β (Aβ) accumulation plays a central role in AD pathology. Aβ is produced by
sequential cleavage of amyloid precursor protein (APP) by BACE1 and γ-secretase at the earlyendosomal
membrane during intracellular trafficking of APP through the endocytic pathways. Altered
trafficking of APP can disrupt Aβ production. For the past decade, several rare coding variants were
identified in LOAD genetic risk factors that have created a broader picture of the cellular mechanisms
involved in AD risk. One of which is CD2-associated protein (CD2AP), an adaptor molecule with a
binding site for actin that regulates membrane trafficking and has been reported to be involved in the
intracellular trafficking of APP. The role of the CD2AP mutation associated with a higher risk of AD
however is not yet understood.
Here, we present evidence that the LOAD risk gene CD2AP and its AD-associated genetic variant
K633R play an important role in the postsynaptic development of neurons by regulating spinal actin.
We found that CD2AP is enriched in dendritic spines and colocalizes with post-synaptic density protein.
Its knockdown impairs spine development and synapse formation by actin-related mechanisms.
Importantly, the C-terminal domain is required for CD2AP localization to spines. These findings
identify CD2AP as a novel regulator of synaptic function and neuronal networks. We investigated the
effect of CD2AP overexpression and KD/KO on intracellular Aβ and APP distribution and APP
degradation in neuronal cells. We observed that CD2AP, both wild-type and mutant increased
intracellular Aβ42 levels. CD2AP increases APP sorting to the lumen of the Rab5-positive endosomes.
While in cells expressing the mutant form of the protein, APP does not sort into the lumen and remains
at the endosomal membrane. Moreover, the CD2AP mutant reduced the degradation of APP which
happens at a faster rate compared to the mutant-expressing cells. We showed that increased intracellular
APP levels in cells expressing the mutant protein may be the reason for the increased accumulation of
Aβ42 at synaptic sites, observed in primary neurons. These results may explain the impaired cellular
function of the CD2AP mutation the AD risk factor, in APP processing and degradation, leading to
Aβ42 accumulation and creation of the senile plaques, an important hallmark in AD.
In summary, we discovered that the CD2AP(K633R) LOAD rare coding mutation contributes to AD
pathology through two distinct yet related mechanisms.CD2AP LOAD mutation can contribute to AD
pathology by impairing APP degradation and increasing the accumulation of Aβ42 in the cells and at
the synapses. We also found that CD2AP LOAD mutation can impact neurons independent of Aβ, and
through actin by regulating synaptic architecture. Thus, CD2AP mutation exerts its dual function in
neurons and on synapses by first, regulating spinal actin, and second, by altering vesicular trafficking
and APP degradation, yet both mechanisms are related since elevated Aβ levels produced due to
impaired APP degradation, accumulate at synaptic sites, the spines, which are found in higher density
in mutant cells, a synergy that can potentially cause an overexcitability of neurons, an early pathological
event in AD