Open Access
Oligomeric Bax is a component of the putative cytochrome c release channel MAC, mitochondrial apoptosis-induced channel
(American Society for Cell Biology, 2005-03-16) Dejean, Laurent M.; Martínez-Caballero, Sonia; Guo, Liang; Hughes, Cynthia; Teijido Hermida, Óscar; Ducret, Thomas; Ichas, François; Korsmeyer, Stanley J.; Antonsson, Bruno; Jonas, Elizabeth A.; Kinnally, Kathleen W.; Ciencias de la Salud; Osasun Zientziak
Bcl-2 family proteins regulate apoptosis, in part, by controlling formation of the mitochondrial apoptosis-induced channel (MAC), which is a putative cytochrome c release channel induced early in the intrinsic apoptotic pathway. This channel activity was never observed in Bcl-2-overexpressing cells. Furthermore, MAC appears when Bax translocates to mitochondria and cytochrome c is released in cells dying by intrinsic apoptosis. Bax is a component of MAC of staurosporine-treated HeLa cells because MAC activity is immunodepleted by Bax antibodies. MAC is preferentially associated with oligomeric, not monomeric, Bax. The single channel behavior of recombinant oligomeric Bax and MAC is similar. Both channel activities are modified by cytochrome c, consistent with entrance of this protein into the pore. The mean conductance of patches of mitochondria isolated after green fluorescent protein-Bax translocation is significantly higher than those from untreated cells, consistent with onset of MAC activity. In contrast, the mean conductance of patches of mitochondria indicates MAC activity is present in apoptotic cells deficient in Bax but absent in apoptotic cells deficient in both Bax and Bak. These findings indicate Bax is a component of MAC in staurosporine-treated HeLa cells and suggest Bax and Bak are functionally redundant as components of MAC.
Open Access
Pharmacogenetics of vascular risk factors in Alzheimer's disease
(MDPI, 2018-01-03) Cacabelos, Ramón; Meyyazhagan, Arun; Carril, Juan Carlos; Cacabelos, Pablo; Teijido Hermida, Óscar; Ciencias de la Salud; Osasun Zientziak
Alzheimer's disease (AD) is a polygenic/complex disorder in which genomic, epigenomic, cerebrovascular, metabolic, and environmental factors converge to define a progressive neurodegenerative phenotype. Pharmacogenetics is a major determinant of therapeutic outcome in AD. Different categories of genes are potentially involved in the pharmacogenetic network responsible for drug efficacy and safety, including pathogenic, mechanistic, metabolic, transporter, and pleiotropic genes. However, most drugs exert pleiotropic effects that are promiscuously regulated for different gene products. Only 20% of the Caucasian population are extensive metabolizers for tetragenic haplotypes integrating CYP2D6-CYP2C19-CYP2C9-CYP3A4/5 variants. Patients harboring CYP-related poor (PM) and/or ultra-rapid (UM) geno-phenotypes display more irregular profiles in drug metabolism than extensive (EM) or intermediate (IM) metabolizers. Among 111 pentagenic (APOE-APOB-APOC3-CETP-LPL) haplotypes associated with lipid metabolism, carriers of the H26 haplotype (23-TT-CG-AG-CC) exhibit the lowest cholesterol levels, and patients with the H104 haplotype (44-CC-CC-AA-CC) are severely hypercholesterolemic. Furthermore, APOE, NOS3, ACE, AGT, and CYP variants influence the therapeutic response to hypotensive drugs in AD patients with hypertension. Consequently, the implementation of pharmacogenetic procedures may optimize therapeutics in AD patients under polypharmacy regimes for the treatment of concomitant vascular disorders.
Open Access
Regulation of Bax mitochondrial localization by Bcl-2 and Bcl-xL: keep your friends close but your enemies closer
(Elsevier, 2013) Renault, Thibaud T.; Teijido Hermida, Óscar; Antonsson, Bruno; Dejean, Laurent M.; Manon, Stéphen; Ciencias de la Salud; Osasun Zientziak
Bax-induced mitochondrial outer membrane permeabilization (MOMP) is considered as one of the key control switches of apoptosis. MOMP requires Bax relocation to and insertion into the outer mitochondrial membrane to oligomerize and form pores allowing the release of apoptogenic factors such as cytochrome c. Even if these essential steps are now well-defined, it is necessary to better understand the molecular changes underlying the switch between inactive Bax and active (pore-forming) Bax. One of the ongoing issues is to determine whether Bax mitochondrial translocation is a critical step in the control of Bax activation or if this control is carried by latter regulatory steps. In this focus article we discuss recent data suggesting that although Bcl-2 and Bcl-xL block the MOMP, they can also regulate the mitochondrial Bax content. A new model in which Bax inhibition by Bcl-xL occurs at the immediate proximity of the outer mitochondrial membrane is also discussed. This article is part of a Directed Issue entitled: Bioenergetic dysfunction, adaptation and therapy.
Open Access
Lipid dynamics and protein-lipid interactions in 2D crystals formed with the beta-barrel integral membrane protein VDAC1
(American Chemical Society, 2012) Eddy, Matthew T.; Ong, Ta-Chung; Clark, Lindsay; Teijido Hermida, Óscar; Van der Wel, Patrick C. A.; Garces, Robert; Wagner, Gerhard; Rostovtseva, Tatiana K.; Griffin, Robert G.; Ciencias de la Salud; Osasun Zientziak
We employ a combination of 13C/15N magic angle spinning (MAS) NMR and 2H NMR to study the structural and functional consequences of different membrane environments on VDAC1 and, conversely, the effect of VDAC1 on the structure of the lipid bilayer. MAS spectra reveal a well-structured VDAC1 in 2D crystals of dimyristoylphosphatidylcholine (DMPC) and diphytanoylphosphatidylcholine (DPhPC), and their temperature dependence suggests that the VDAC structure does not change conformation above and below the lipid phase transition temperature. The same data show that the N-terminus remains structured at both low and high temperatures. Importantly, functional studies based on electrophysiological measurements on these same samples show fully functional channels, even without the presence of Triton X-100 that has been found necessary for in vitro-refolded channels. 2H solid-state NMR and differential scanning calorimetry were used to investigate the dynamics and phase behavior of the lipids within the VDAC1 2D crystals. 2H NMR spectra indicate that the presence of protein in DMPC results in a broad lipid phase transition that is shifted from 19 to -27 °C and show the existence of different lipid populations, consistent with the presence of both annular and bulk lipids in the functionally and structurally homogeneous samples.
Open Access
Can cloud-based tools accelerate Alzheimer's disease drug discovery?
(Taylor & Francis, 2016) Cacabelos, Ramón; Teijido Hermida, Óscar; Carril, Juan Carlos; Ciencias de la Salud; Osasun Zientziak
Open Access
Epigenetic drug discovery for alzheimer's disease
(Academic Press, 2018) Cacabelos, Ramón; Teijido Hermida, Óscar; Ciencias de la Salud; Osasun Zientziak
Alzheimer's disease (AD) is the most important neurodegenerative disorder in Western countries. Pathological phenotypes of neurodegeneration result from a combination of genomic, epigenomic, metabolic, and environmental factors, which hinders their treatment. Current FDA-approved conventional drugs are purely symptomatic but incapable to halt or, at least, delay the progression of the disease. The epigenetic approach allows the identification of key pathological targets in complex disorders that cannot be explained by conventional genetics. Many of these epigenetic targets may be detected in early asymptomatic stages of the disease. Furthermore, the reversibility and potential restoring of epigenetic aberrations, unlike genetic mutations, sited epigenetic-based therapy as a promising tool to treat those complex disorders. This chapter reviews the main potential epigenetic-based compounds that have been used for preclinical studies during the last decade and those currently submitted to clinical trials for the treatment of AD.
Open Access
Pharmacogenetic considerations in the treatment of Alzheimer's disease
(Taylor & Francis, 2016) Cacabelos, Ramón; Torrellas, Clara; Teijido Hermida, Óscar; Carril, Juan Carlos ; Ciencias de la Salud; Osasun Zientziak
The practical pharmacogenetics of Alzheimer’s disease (AD) is circumscribed to acetylcholinesterase inhibitors (AChEIs) and memantine. However, pharmacogenetic procedures should be applied to novel strategies in AD therapeutics including: novel AChEIs and neurotransmitter regulators, anti-Aβ treatments, anti-tau treatments, pleiotropic products, epigenetic drugs and combination therapies. Genes involved in the pharmacogenetic network are under the influence of the epigenetic machinery which regulates gene expression transcriptionally and post-transcriptionally, configuring the fundamentals of pharmacoepigenomics. Over 60% of AD patients present concomitant pathologies demanding additional treatments which increase the likelihood of drug–drug interactions. Lipid metabolism dysfunction is a pathogenic mechanism inherent to AD neurodegeneration. The therapeutic response to hypolipidemic compounds is influenced by the APOE and CYP genotypes. The development of novel compounds and the use of combination/multifactorial treatments require the implantation of pharmacogenomic procedures for the avoidance of ADRs and the optimization of therapeutics.
Open Access
Epigenetic mechanisms in the regulation of drug metabolism and transport
(Academic Press, 2019) Teijido Hermida, Óscar; Ciencias de la Salud; Osasun Zientziak
Open Access
Pharmacoepigenomic interventions as novel potential treatments for Alzheimer's and Parkinson's diseases
(MDPI, 2018) Teijido Hermida, Óscar; Cacabelos, Ramón; Ciencias de la Salud; Osasun Zientziak
Cerebrovascular and neurodegenerative disorders affect one billion people around the world and result from a combination of genomic, epigenomic, metabolic, and environmental factors. Diagnosis at late stages of disease progression, limited knowledge of gene biomarkers and molecular mechanisms of the pathology, and conventional compounds based on symptomatic rather than mechanistic features, determine the lack of success of current treatments, including current FDA-approved conventional drugs. The epigenetic approach opens new avenues for the detection of early presymptomatic pathological events that would allow the implementation of novel strategies in order to stop or delay the pathological process. The reversibility and potential restoring of epigenetic aberrations along with their potential use as targets for pharmacological and dietary interventions sited the use of epidrugs as potential novel candidates for successful treatments of multifactorial disorders involving neurodegeneration. This manuscript includes a description of the most relevant epigenetic mechanisms involved in the most prevalent neurodegenerative disorders worldwide, as well as the main potential epigenetic-based compounds under investigation for treatment of those disorders and their limitations.
Open Access
Bcl-xL stimulates Bax relocation to mitochondria and primes cells to ABT-737
(Elsevier, 2015) Renault, Thibaud T.; Teijido Hermida, Óscar; Missire, Florent; Ganesan, Yogesh Tengarai; Velours, Gisèle; Arokium, Hubert; Beaumatin, Florian; Llanos, Raul; Athané, Axel; Camougrand, Nadine; Priault, Muriel; Antonsson, Bruno; Dejean, Laurent M.; Manon, Stéphen; Ciencias de la Salud; Osasun Zientziak