The Chi‐chi earthquake (MS = 7.7), which occurred in September 1999, seriously damaged central Taiwan. Approximately 2 years later (July 2001), the Toraji typhoon brought a heavy rainstorm (650 mm rain/day) and triggered widespread landslides in central Taiwan and parts of eastern Taiwan. Approximately 10 000 Chi‐chi earthquake‐induced landslides and 6000 Toraji typhoon‐related mass movements were delineated in an area of 2400 km2 using Satellite Pour l’Observation de la Terre (SPOT; French earth resource satellite) images. The landslide distribution could be closely related to the distribution of peak ground acceleration registered during the Chi‐chi earthquake. The study area was composed of Tertiary sedimentary and metamorphic rocks, whose age and induration increased eastward. The earthquake‐induced landslides were mostly distributed in the region between the Chelungpu Fault and the Lishan Fault to the east, whereas they were few in the region east of the Lishan Fault. The Toraji typhoon in 2001 severely damaged both regions that had been shattered by the Chi‐chi earthquake in 1999. The occurrence of earthquake‐induced landslides can be correlated with epicentral distance, and their occurrence has more influence from the rock type than from the ground motion.
The COVID-19 pandemic is an ongoing global pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) in 2020–2021. COVID-19 is becoming one of the most fatal pandemics in history and brings a huge challenge to the global healthcare system. Opportune detection, confinement, and early treatment of infected cases present the first step in combating COVID-19. Diagnosis via viral nucleic acid amplification tests (NAATs) is frequently employed and considered the standard procedure. However, with an increasing urge for point-of-care tests, rapid and cheaper immunoassays are widely utilized, such as lateral flow immunoassay (LFIA), which can be used for rapid, early, and large-scale detection of SARS-CoV-2 infection. In this narrative review, the principle and technique of LFIA applied in COVID-19 antigen and antibody detection are introduced. The diagnostic sensitivity and specificity of the commercial LFIA tests are outlined and compared. Generally, LFIA antigen tests for SARS-CoV-2 are less sensitive than viral NAATs, the “gold standard” for clinical COVID-19 diagnosis. However, antigen tests can be used for rapid and mass testing in high-risk congregate housing to quickly identify people with COVID-19, implementing infection prevention and control measures, thus preventing transmission. LFIA anti-SARS-CoV-2 antibody tests, IgM and/or IgG, known as serology tests, are used for identification if a person has previously been exposed to the virus or vaccine immunization. Notably, advanced techniques, such as LFT-based CRISPR-Cas9 and surface-enhanced Raman spectroscopy (SERS), have added new dimensions to the COVID-19 diagnosis and are also discussed in this review.
Matrix metalloproteinase 9 (MMP-9), a member of MMP family, is involved in many physiological processes, including cardiovascular disease (CVD). Tumor necrosis factor-α (TNF-α) is considered a cytokine with pleiotropic biological capabilities and leads to the process of CVD when TNF-α is abnormally released and stimulates MMP-9 expression and activation. In this study, we investigated the molecular mechanism of TNF-α-regulated MMP-9 expression. The experimental results confirm that TNF-α could upregulate MMP-9 expression in heart myoblast H9c2 cells of rat. To evaluate the MMP-9 regulation at transcriptional level, a DNA fragment of 2.2 kb (-2168/+18) of human mmp-9 promoter region was cloned and constructed in a vector of luciferase reporter gene. The 2.2-kb sequences were identified as having three candidate nuclear factor-κ B (NF-κB) binding sites: NF-κB I (-1418/-1409), NF-κB II (-626/-617), and NF-κB III (-353/-345). A series of reporter vectors with the mutated NF-κB sites of mmp-9 promoter sequences were constructed and transfected into H9c2 cells. The results show that the NF-κB II binding site (-626/-617) within the promoter region of mmp-9 plays a key role in upregulation of mmp-9 expression by TNF-α induction. In addition, we also first identified that the NF-κB I, similar to c-Rel, might be one of the NF-κB families to regulate mmp-9 expression.
Angiotensin converting enzyme II (ACE2), an angiotensin converting enzyme (ACE) homologue
that displays antagonist effects on ACE/angiotensin II (Ang II) axis in renin-angiotensin
system (RAS), could play a protective role against liver damages. The purpose of this
study is to investigate whether inflammation-mediated liver injury could be affected by
ACE2 derived pathways in the RAS. Eight-weeks-old wild-type (WT; C57BL/6) and
Ace2 KO (hemizygous Ace2-/y) male mice were
used to induce liver fibrosis by thioacetamide (TAA) administration (0, 100, and 200 mg/kg
BW). The mice administrated with TAA could be successfully induced liver fibrosis in a
TAA-dose dependent manner. Compared to WT mice, the results show that
Ace2 KO mice have high sensitive, and developed more serious reaction
of hepatic inflammation and fibrosis by TAA administration. The physiological and
pathological examinations demonstrated higher serum aspartate aminotransferase (AST),
alanine aminotransferase (ALT) and alkaline phosphatase (ALP) levels, infiltration of
white blood cells and fibrotic lesions within liver in the Ace2 KO mice.
The severe liver damage of Ace2 KO mice were also confirmed by the
evidence of higher expression of hepatic inflammation-related genes (IL-6
and Tnf) and fibrosis-related genes (Col1a1,
Timp1 and Mmp9). Ace2 gene deficiency
could lead to a severe inflammation and collagen remodeling in the liver administrated by
TAA, and the responses lead the pathogenesis of liver fibrosis. Our studies provided the
main messages and favorable study directions of relationship of Ace2 and
liver disease.
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