Si Gao scite author profile

SummaryEhrlichia chaffeensis, an obligatory intracellular bacterium, has two forms in mammalian cells: small dense-cored cells (DC) with dense nucleoid and larger reticulate cells (RC) with uniformly dispersed nucleoid. We have determined by electron microscopy that DC but not RC attaches to and enters into the host cells and RC but not DC multiples inside the host cells. Analysis of outer membrane protein expression by confocal microscopy showed that RC expressed the 28 kDa outer membrane protein (p28), the intermediate form, which were transforming from RC to DC, expressed both gp120 and p28, and the mature DC expressed gp120 only. The TCID 50 of DC is 6 log10 higher than RC. We conclude that E. chaffeensis has a developmental cycle, in which the DC attaches to and enters into the host cells, and transforms into RC and the RC multiplies by binary fission for 48 h and then matures into DC at 72 h.

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Assessing brain injury topographically using MR neurite orientation dispersion and density imaging in multiple sclerosis

Chen

Wen

Lakhani

et al. 2021

Journal of Neuroimaging

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Background and Purpose Axonal injury is a key player of disability in persons with multiple sclerosis (pwMS). Yet, detecting and measuring it in vivo is challenging. The neurite orientation dispersion and density imaging (NODDI) proposes a novel framework for probing axonal integrity in vivo. NODDI at 3.0 Tesla was used to quantify tissue damage in pwMS and its relationship with disease progression. Methods Eighteen pwMS (4 clinically isolated syndrome, 11 relapsing remitting, and 3 secondary progressive MS) and nine age‐ and sex‐matched healthy controls underwent a brain MRI, inclusive of clinical sequences and a multi‐shell diffusion acquisition. Parametric maps of axial diffusivity (AD), neurite density index (ndi), apparent isotropic volume fraction (ivf), and orientation dispersion index (odi) were fitted. Anatomically matched regions of interest were used to quantify AD and NODDI‐derived metrics and to assess the relations between these measures and those of disease progression. Results AD, ndi, ivf, and odi significantly differed between chronic black holes (cBHs) and T2‐lesions, and between the latter and normal appearing white matter (NAWM). All metrics except ivf significantly differed between NAWM located next to a cBH and that situated contra‐laterally. Only NAWM odi was significantly associated with T2‐lesion volume, the timed 25‐foot walk test and disease duration. Conclusions NODDI is sensitive to tissue injury but its relationship with clinical progression remains limited.

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Disease-modifying therapies and progressive multifocal leukoencephalopathy in multiple sclerosis: A systematic review and meta-analysis

Sriwastava

Kataria

Srivastava

et al. 2021

Journal of Neuroimmunology

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Perilesional neurodegenerative injury in multiple sclerosis: Relation to focal lesions and impact on disability

Clarke

Lakhani

Wen

et al. 2021

Multiple Sclerosis and Related Disorders

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Masking autoprocessing of Clostridium difficile toxin A by the C-terminus combined repetitive oligo peptides

Zhang

Hamza

Gao

et al. 2015

Biochemical and Biophysical Research Communications

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Clostridium difficile toxin A and B (TcdA and TcdB) are the major virulence factors of the bacterium, both of which consist of two enzymatic domains: an effector glucosyltransferase domain (GTD) and a cysteine protease domain (CPD) responsible for autocleavage and release of GTD. Although the CPDs from both toxins share a similar structure and mechanism of hexakisphosphate (InsP6) -induced activation, TcdA is substantially less sensitive to the autocleavage as compared with TcdB. In this study, we provided evidence of inter-domain regulation of CPD activity of TcdA and its autoprocessing. The C-terminus combined repetitive oligo peptides (CROPs) of TcdA reduced the accessibility of TcdB CPD to its substrate in a chimeric toxin TxB-Ar, consequently blocking autoprocessing. Moreover, interference of antibodies with the CROPs of full-length TcdA efficiently enhanced its GTD release. In conclusion, by utilizing chimeric toxins and specific antibodies, we identified that the CROPs of TcdA plays a crucial role in controlling the InsP6-mediated activation of CPD and autocleavage of GTD. Our data provides insights on the molecular mode of action of the C. difficile toxins.

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Si Gao

The developmental cycle of Ehrlichia chaffeensis in vertebrate cells

Assessing brain injury topographically using MR neurite orientation dispersion and density imaging in multiple sclerosis

Disease-modifying therapies and progressive multifocal leukoencephalopathy in multiple sclerosis: A systematic review and meta-analysis

Perilesional neurodegenerative injury in multiple sclerosis: Relation to focal lesions and impact on disability

Masking autoprocessing of Clostridium difficile toxin A by the C-terminus combined repetitive oligo peptides

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