Rui Y, etal., J Mol Histol. 2013 Oct;44(5):497-505. doi: 10.1007/s10735-013-9506-7. Epub 2013 Jun 15.
Bnip3L, also known as NIX, is a homolog of the E1B 19K/Bcl-2 binding and pro-apoptotic protein Bnip3 which can bind to Bcl-2 to elaborate that effect. In tumor cells, Bnip3L played a role in tumor growth inhibition, but some studies argued hypoxia-induced autophagy via Bnip3L was a survival mechani
sm that promoted tumor progression. In heart muscle, it related to decreased myocardial function. However, its function in intracerebral hemorrhage (ICH) is still not clear. In this frame, we found the Bnip3L expression increased in the perihematomal region in adult rats after performed ICH. Double immunofluorenscence staining manifested that Bnip3L co-located with neurons, not astrocytes or oligodendrocytes. Furthermore, we detected that neuronal apoptosis marker active caspase-3 had colocalizations with Bnip3L. In addition, colocalizations and co-immunoprecipitation between Bnip3L and Bcl-2, consistent with previous study, were also found. All our findings suggested that Bnip3L might be involved in the pathophysiology of ICH.
Wilfinger N, etal., Oncotarget. 2016 Jan 12;7(2):1242-61. doi: 10.18632/oncotarget.6233.
This study identifies BNIP3L as the key regulator of p53-dependent cell death mechanism in colon cancer cells targeted by the novel gallium based anticancer drug, KP46. KP46 specifically accumulated into mitochondria where it caused p53-dependent morphological a
nd functional damage impairing mitochondrial dynamics and bioenergetics. Furthermore, competing with iron for cellular uptake, KP46 lowered the intracellular labile iron pools and intracellular heme. Accordingly, p53 accumulated in the nucleus where it activated its transcriptional target BNIP3L, a BH3 only domain protein with functions in apoptosis and mitophagy. Upregulated BNIP3L sensitized the mitochondrial permeability transition and strongly induced PARKIN-mediated mitochondrial clearance and cellular vacuolization. Downregulation of BNIP3L entirely rescued cell viability caused by exposure of KP46 for 24 hours, confirming that early induced cell death was regulated by BNIP3L. Altogether, targeting BNIP3L in wild-type p53 colon cancer cells is a novel anticancer strategy activating iron depletion signaling and the mitophagy-related cell death pathway.
Chen Y, etal., J Biol Chem. 2013 May 31;288(22):15455-65. doi: 10.1074/jbc.M113.452342. Epub 2013 Apr 19.
Several Bcl2 family proteins are expressed both as mitochondrial-targeted full-length and as cytosolic truncated alternately spliced isoforms. Recombinantly expressed shorter Bcl2 family isoforms can heterotypically bind to and prevent mitochondrial localization of their full-length analogs, thus s
uppressing their activity by sequestration. This "sponge" role requires 1:1 expression stoichiometry; absent this an alternate role is suggested. Here, RNA sequencing revealed coordinate regulation of BH3-only protein Nix/Bnip3L (Nix) and its alternately spliced soluble form (sNix) in hearts, but relative sNix/Nix expression of approximately 1:10. Accordingly, we examined other putative functions of sNix. Although Nix expressed in H9c2 rat myoblasts localized to mitochondria, sNix showed variable cytoplasmic and nuclear distribution. Tumor necrosis factor alpha (TNFalpha) induced rapid and complete sNix nucleoplasmic translocation concomitant with nuclear translocation of the p65/RelA subunit of NFkappaB. sNix co-localized and co-precipitated with p65/RelA after TNFalpha stimulation; TNFalpha-induced sNix nuclear translocation did not occur in p65/RelA null murine embryonic fibroblasts. ChIP sequencing of TNFalpha-stimulated H9c2 cells revealed sNix suppression of p65/RelA binding to a subset of weaker DNA binding sites, accounting for its ability to alter gene expression in cultured cells and in vivo mouse hearts. These findings reveal TNFalpha-stimulated cytoplasmic-nuclear shuttling of the alternately spliced non-mitochondrial Nix isoform and uncover a role for sNix as a modulator of TNFalpha/NFkappaB-stimulated cardiac gene expression. Transcriptional co-regulation of sNix and Nix, combined with sNix posttranslational regulation by TNFalpha, comprises a previously unknown mechanism for molecular cross-talk between extrinsic death receptor and intrinsic mitochondrial apoptosis pathways.
Vesela B and Matalova E, Connect Tissue Res. 2015;56(4):326-35. doi: 10.3109/03008207.2015.1040546. Epub 2015 Jun 15.
Hair follicles undergo repetitive stages of cell proliferation and programmed cell death. The catagen stage of physiological apoptosis is connected with dynamic changes in morphology and alterations in gene expression. However, hair follicle apoptosis must be in balance with events in surrounding ti
ssues, such as keratinocyte cornification, to maintain complex skin homeostasis. Several pro- and anti-apoptotic molecules in the skin have been reported but mainly in pathological states. In this investigation, apoptosis-related gene expression was examined during the first catagen stage of mouse hair follicle development by PCR arrays under physiological conditions. Postnatal stages P15 and P17, representing early and late catagen stages, were evaluated relatively to stage P6, representing the hair follicle growing phase, to demonstrate dynamics of gene activation during the catagen. Several statistically significant alterations were observed at P15 and particularly at P17. Bnip3L and caspase-12 identified by the PCR arrays at both catagen stages were additionally localized using immunofluorescence and were reported in physiological hair development for the first time.
Duval N, etal., Front Cell Neurosci. 2018 Jan 30;12:15. doi: 10.3389/fncel.2018.00015. eCollection 2018.
The molecular mechanisms leading to motor neuron death in amyotrophic lateral sclerosis (ALS) are unknown; however, several studies have provided evidence of a central role for intrinsic apoptosis. Bcl-2 homology-3 domain (BH3)-only proteins are pro-apoptotic members of the Bcl-2 family whose enhanc
ed expression acts as a trigger for the intrinsic apoptotic cascade. Here, we compared the relative expression of BH3-only proteins in the spinal cord of end-stage G93A mutant SOD1 mice to age-matched wild-type (WT) mice. Large alpha motor neurons in lumbar spinal cord sections of both WT and end-stage mutant SOD1 mice stained positively for a number of BH3-only proteins; however, no discernible differences were observed in either the relative intensity of staining or number of BH3-immunoreactive motor neurons between WT and mutant SOD1 mice. On the other hand, we observed significantly enhanced staining for Bid, DP5/Hrk, and BNip3L in GFAP-positive astrocytes only in end-stage G93A mutant SOD1 spinal cord. Staining of additional end-stage G93A mutant SOD1 tissues showed specific upregulation of DP5/Hrk in lumbar spinal cord sections, but not in cerebellum or cortex. Finally, examination of protein expression using western blotting also revealed marked increases in DP5/Hrk and BNip3L in G93A mutant SOD1 lumbar spinal cord lysates compared to WT controls. The upregulation of a specific subset of BH3-only proteins, including Bid, DP5/Hrk, and BNip3L, in reactive astrocytes suggests that these proteins may execute a novelnon-apoptoticfunction within astrocytes to promote ALS disease progression, thus providing a new potential target for therapeutic intervention.
