Influenza A virus protein PB1-F2 translocates into mitochondria via Tom40 channels and impairs innate immunity

Mitochondria contribute to cellular innate immunity against RNA viruses. Mitochondrial-mediated innate immunity is regulated by signalling molecules that are recruited to the mitochondrial membrane, and depends on the mitochondrial inner membrane potential (Δψm). Here we examine the physiological relevance of Δψm and the mitochondrial-associating influenza A viral protein PB1-F2 in innate immunity. When expressed in host cells, PB1-F2 completely translocates into the mitochondrial inner membrane space via Tom40 channels, and its accumulation accelerates mitochondrial fragmentation due to reduced Δψm. By contrast, PB1-F2 variants lacking a C-terminal polypeptide, which is frequently found in low pathogenic subtypes, do not affect mitochondrial function. PB1-F2-mediated attenuation of Δψm suppresses the RIG-I signalling pathway and activation of NLRP3 inflammasomes. PB1-F2 translocation into mitochondria strongly correlates with impaired cellular innate immunity, making this translocation event a potential therapeutic target.

Efficient isolation of pure and functional mitochondria from mouse tissues using automated tissue disruption and enrichment with anti-TOM22 magnetic beads

To better understand molecular mechanisms regulating changes in metabolism, as observed e.g. in diabetes or neuronal disorders, the function of mitochondria needs to be precisely determined. The usual isolation methods such as differential centrifugation result in isolates of highly variable quality and quantity. To fulfill the need of a reproducible isolation method from solid tissues, which is suitable to handle parallel samples simultaneously, we developed a protocol based on anti-TOM22 (translocase of outer mitochondrial membrane 22 homolog) antibody-coupled magnetic beads. To measure oxygen consumption rate in isolated mitochondria from various mouse tissues, a traditional Clark electrode and the high-throughput XF Extracellular Flux Analyzer were used. Furthermore, Western blots, transmission electron microscopic and proteomic studies were performed to analyze the purity and integrity of the mitochondrial preparations. Mitochondrial fractions isolated from liver, brain and skeletal muscle by anti-TOM22 magnetic beads showed oxygen consumption capacities comparable to previously reported values and little contamination with other organelles. The purity and quality of isolated mitochondria using anti-TOM22 magnetic beads was compared to traditional differential centrifugation protocol in liver and the results indicated an obvious advantage of the magnetic beads method compared to the traditional differential centrifugation technique.

Significant clinical response of advanced colon cancer to peptide vaccine therapy: a case report

Partial response (PR) was obtained in a patient with advanced colon cancer following peptide vaccine therapy. A 61-year-old woman was referred to our hospital for peptide vaccine therapy. She had undergone sigmoidectomy at a nearby hospital and eventually developed multiple metastases to the lung and pelvic lymph nodes with left hydronephrosis. A ureteral stenting catheter had been inserted for left hydronephrosis, and oral opioids had been administered for relief of pain in the left pelvic region. Three tumor-antigen-derived peptides (RNF43, TOMM34, and KOC1) and two human VEGFR-derived peptides (VEGFR1 and VEGFR2) were used as a cocktail. The peptide cocktail was subcutaneously inoculated on days 1, 8, 15, and 22 and repeated at 14-day intervals. The patient's serum level of carcinoembryonic antigen was 28.9 ng/mL (N<5 ng/mL) before treatment, and it decreased promptly after the initiation of therapy to within a normal range. Evaluation of computed tomography images at week 5 revealed PR as determined by the Response Evaluation Criteria in Solid Tumor criteria. After month 3, the oral opioid was discontinued. The PR lasted for 4 months and was followed by stable disease for another 4 months. No particular adverse effects were observed. A cytotoxic T lymphocyte (CTL) response was evaluated by immunosorbent spot assay, and a positive CTL response was recognized against at least one of five peptides at each end of the six courses. Immunotherapy has been proven to slow tumor growth by inducing an active antitumor immune response; and therefore, significant tumor shrinkage is rarely observed. To our knowledge, this is the first case report of PR presented in a patient with advanced colon cancer.

Dual targeting to mitochondria and plastids of AtBT1 and ZmBT1, two members of the mitochondrial carrier family

Zea mays and Arabidopsis thaliana Brittle 1 (ZmBT1 and AtBT1, respectively) are members of the mitochondrial carrier family. Although they are presumed to be exclusively localized in the envelope membranes of plastids, confocal fluorescence microscopy analyses of potato, Arabidopsis and maize plants stably expressing green fluorescent protein (GFP) fusions of ZmBT1 and AtBT1 revealed that the two proteins have dual localization to plastids and mitochondria. The patterns of GFP fluorescence distribution observed in plants stably expressing GFP fusions of ZmBT1 and AtBT1 N-terminal extensions were fully congruent with that of plants expressing a plastidial marker fused to GFP. Furthermore, the patterns of GFP fluorescence distribution and motility observed in plants expressing the mature proteins fused to GFP were identical to those observed in plants expressing a mitochondrial marker fused to GFP. Electron microscopic immunocytochemical analyses of maize endosperms using anti-ZmBT1 antibodies further confirmed that ZmBT1 occurs in both plastids and mitochondria. The overall data showed that (i) ZmBT1 and AtBT1 are dually targeted to mitochondria and plastids; (ii) AtBT1 and ZmBT1 N-terminal extensions comprise targeting sequences exclusively recognized by the plastidial compartment; and (iii) targeting sequences to mitochondria are localized within the mature part of the BT1 proteins.

Monitoring of premitotic and postmitotic apoptosis in gamma-irradiated HL-60 cells by the mitochondrial membrane protein-specific monoclonal antibody APO2.7

BACKGROUND

Majority of hematopoietic cells die by apoptosis after irradiation with ionizing radiation. In present study it is shown that human promyelocytic leukemia HL-60 cells can undergo two different types of apoptosis, premitotic and postmitotic.

METHODS

HL-60 cells were irradiated with doses 8 and 20 Gy. For apoptosis detection APO2.7 antigen (mitochondrial membrane specific protein) expression without and with permeabilization by digitonin was used. This method was compared with flow-cytometric analysis of cell light scattering properties and determination of subG1 DNA.

RESULT

Cells irradiated with high dose (20 Gy) died rapidly by premitotic apoptosis (interphase death) from all phases of cell cycle. 2 hours after irradiation cells with subdiploid DNA content and cells stained by APO2.7 after digitonin permeabilization appeared. After 6 hours 40% of cells were apoptotic, nonapoptotic cells were mainly in G1-phase. Lower dose (8 Gy) after 6 hours of irradiation caused accumulation of cells in S-phase. After 24 hours majority of cells was in G2-phase and apoptotic cells appeared (subG1 peak, APO2.7 with permeabilization).

CONCLUSION

Data presented herein indicate that mitochondrial membrane protein-specific antibody APO2.7 after permeabilization is a useful marker for detection of early apoptotic cells dying by premitotic and postmitotic apoptosis.