Fang Liao scite author profile

Viperin (virus inhibitory protein, endoplasmic reticulum-associated, IFN-inducible) is an interferon-inducible protein that mediates antiviral activity. Generally, rabies virus (RABV) multiplies extremely well in susceptible cells, leading to high virus titres. In this study, we found that viperin was significantly up-regulated in macrophage RAW264.7 cells but not in NA, BHK-21 or BSR cells. Transient viperin overexpression in BSR cells and stable expression in BHK-21 cells could inhibit RABV replication, including both attenuated and street RABV. Furthermore, the inhibitory function of viperin was related to reduce cholesterol/sphingomyelin on the membranes of RAW264.7 cells. We explored the up-stream regulation pathway of viperin in macrophage RAW264.7 cells in the context of RABV infection. An experiment confirmed that a specific Toll-like receptor 4 (TLR4) inhibitor, TAK-242, could inhibit viperin expression in RABV-infected RAW264.7 cells. These results support a regulatory role for TLR4. Geldanamycin, a specific inhibitor of interferon regulatory factor 3 (IRF3) (by inhibiting heat-shock protein 90 (Hsp90) of the IRF3 phosphorylation chaperone), significantly delayed and reduced viperin expression, indicating that IRF3 is involved in viperin induction in RAW264.7 cells. Taken together, our data support the therapeutic potential for viperin to inhibit RABV replication, which appears to involve upstream regulation by TLR4.

Necessity of angiotensin-converting enzyme-related gene for cardiac functions and longevity of Drosophila melanogaster assessed by optical coherence tomography

Chang

et al. 2013

J. Biomed. Opt.

Prior studies have established the necessity of an angiotensin-converting enzyme-related (ACER) gene for heart morphogenesis of Drosophila. Nevertheless, the physiology of ACER has yet to be comprehensively understood. Herein, we employed RNA interference to down-regulate the expression of ACER in Drosophila's heart and swept source optical coherence tomography to assess whether ACER is required for cardiac functions in living adult flies. Several contractile parameters of Drosophila heart, including the heart rate (HR), end-diastolic diameter (EDD), end-systolic diameter (ESD), percent fractional shortening (%FS), and stress-induced cardiac performance, are shown, which are age dependent. These age-dependent cardiac functions declined significantly when ACER was down-regulated. Moreover, the lifespans of ACER knock-down flies were significantly shorter than those of wild-type control flies. Thus, we posit that ACER, the Drosophila ortholog of mammalian angiotensin-converting enzyme 2 (ACE2), is essential for both heart physiology and longevity of animals. Since mammalian ACE2 controls many cardiovascular physiological features and is implicated in cardiomyopathies, our findings that ACER plays conserved roles in genetically tractable animals will pave the way for uncovering the genetic pathway that controls the renin-angiotensin system.

Semiautomatic and rapid quantification of heartbeat parameters inDrosophilausing optical coherence tomography imaging

Guo

et al. 2013

J. Biomed. Opt

We report a semiautomatic algorithm that is specialized for rapid analysis of beat-to-beat contraction-relaxation parameters of the heart in Drosophila. The presented algorithm adapts the general graph theoretical image segmentation algorithm and a histogram-based thresholding algorithm, which can measure many cardiac parameters, including heart rate, heart period, diastolic and systolic intervals, and end-diastolic and end-systolic areas. Additionally, dynamic cardiac functions, such as arrhythmia index and percent fractional shortening, can be automatically calculated for all the recorded heartbeats over significant periods of time.

A nuclear DNA-binding protein expressed during early stages of B cell differentiation interacts with diverse segments within and 3' of the Ig H chain gene cluster.

Giannini

Birshtein

1992

We have used electrophoretic mobility shift assays (EMSA) to detect B cell lineage-specific nuclear proteins that bind to diverse segments within and 3' of the Ig H chain gene cluster. DNA binding sites include sequences 5' of each of the following C region genes: mu, gamma 1, gamma 2a, epsilon, and alpha. For the most part, these binding sites lie 5' of CH-associated tandem repeats. Binding sites for the same B cell lineage-specific proteins have also been defined in the region 3' of C alpha, close to a recently described B cell-specific enhancer element. Cross-competition of EMSA indicates that the B cell lineage-specific nucleoprotein is indistinguishable from those described previously by others: S alpha-BP and BSAP. Because of the diverse sequences recognized by this protein, we term it NF-HB, B-lineage-specific nuclear factor that binds to Ig H gene segments. EMSA using segments 5' of S gamma 2a (5'S gamma 2a-176) and 3' of C alpha (3' alpha-88) shows multiple binding complexes, two of which are B cell lineage specific. The B cell-specific complex with fastest mobility contains only NF-HB, and the one with slowest mobility contains NF-HB together with a ubiquitous DNA-binding protein(s). The ubiquitous binding protein is different for 5' S gamma 2a-176 and for 3' alpha-88, representing the formation of protein-NF-HB complexes specific for these particular Ig DNA regions. Spleen cells show a single band upon EMSA with either 5'S gamma 2a-176 or 3' alpha-88. Upon LPS stimulation, additional binding complexes of slower mobility were formed resulting in a pattern comparable to those detected in pro-B, pre-B, and B cell lines. We hypothesize that NF-HB may promote physical interactions between the 3' alpha-enhancer and segments of the Ig H gene cluster.

The transcription factor BSAP (NF-HB) is essential for immunoglobulin germ-line epsilon transcription.

Birshtein

Busslinger

et al. 1994

Treatment of murine splenic B lymphocytes and certain B-lineage cell lines with mitogen (LPS) and the lymphokine IL-4 has been shown to induce expression of germ-line epsilon transcripts (l epsilon transcripts) and class switching to the C epsilon gene. Three protein complexes, one of which (complex 3) is constitutively expressed, have been shown to bind to a 179-base pair LPS/IL-4-responsive l epsilon promoter (Rothman, P., S. C. Li, B. Gorham, L. Glimcher, F. W. Alt, and M. Boothby. 1991. Mol. Cell. Biol. 11:5551). Complex 3 is indispensable for this inducible promoter activity. In this report, we have used electrophoretic mobility shift assays (EMSA) to demonstrate that the early B cell-specific transcription factor (BSAP) is involved in the formation of complex 3. In addition, BSAP is implicated functionally in l epsilon transcription because a BSAP binding site either from a sea urchin histone promoter (H2A-2.2) or from 5' of murine immunoglobulin S gamma 2a can substitute for the epsilon-associated site (epsilon(foot), as assayed by transient transfection assays of the l epsilon:CAT reporter constructs into the M12.4.1 B cell line. Like the sea urchin histone BSAP site, the complex 3 binding site (epsilon(foot)) functions as an upstream promoter element when assayed in the OVEC vector. These results indicate that BSAP is an essential protein required for LPS/IL-4 induction of the l epsilon promoter. In addition, experiments showing that a BSAP binding site from 5' of S gamma 2a also functions as an upstream promoter element in OVEC suggest a potential role for BSAP in regulation of the IgG2a isotype.