The human papillomaviruses (HPV) are associated specifically with epithelial lesions, ranging from benign warts to invasive carcinoma. The virus encodes three late proteins, which are produced only in terminally differentiating keratinocytes, two of which are structural components of the virion. The third, E1-E4, is derived primarily from the E4 open reading frame, which represents a region of maximal divergence between different HPV types. E1-E4 does not seem to be a component of the virus particle or to be needed for transformation in vitro, but accumulates in the cytoplasm, where in certain benign lesions it can comprise 20-30% of total cell protein. We show here that expression of the HPV-16 E1-E4 protein in human keratinocytes (the natural host cell for HPV infection) results in the total collapse of the cytokeratin matrix. Tubulin and actin networks are unaffected by E1-E4, as are the nuclear lamins.
A new class of Bacillus thuringiensis delta-endotoxins, or insecticidal control proteins (ICPs), is defined by an apparently cryptic protein with a unique primary structure and novel entomocidal specificity for certain coleopteran and lepidopteran species. The discovery of a new group of ICPs will extend the use of this natural insecticide in integrated pest-management systems.
Background Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection is associated with a high mortality. To date no trial comparing hydroxychloroquine (HCQ) and lopinavir/ritonavir (LPV/RTV) has been performed. Methods Hospitalized patients ≥18 years old with severe coronavirus disease 2019 (COVID-19) were treated with either HCQ or LPV/RTV if they had either respiratory insufficiency (SpO2 ≤ 93% on room air or the need for oxygen insufflation) or bilateral consolidations on chest X-ray and at least 2 comorbidities associated with poor COVID-19 prognosis. Outcomes investigated included in-hospital mortality, intensive care unit (ICU) admission, length of stay, PCR (polymerase chain reaction) negativity and side effects of treatment. Results Of 156 patients (41% female) with a median age of 72 years (IQR 55.25-81) admitted to our department, 67 patients fulfilled the inclusion criteria (20 received HCQ, 47 LPV/RTV). Groups were comparable regarding most baseline characteristics. Median time from symptom onset to treatment The authors M. Karolyi and E. Pawelka contributed equally to the manuscript.
The intracellular balance between un-esterified and esterified cholesterol is regulated by two enzyme activities, cholesterol ester hydrolases, which drive the balance in favor of un-esterified cholesterol, and acyl-CoA:cholesterol acyl transferase (ACAT) which acts in the opposite direction. During acute inflammation apo-serum amyloid A (apoSAA) isoforms 1.1 and 2.1 become major constituents of high density lipoprotein and this complex is internalized by macrophages. Mixtures of the two isoforms have been shown to enhance cholesterol esterase activity. Using a purified form of the pancreatic enzyme we have explored the mechanism by which apoSAA may accomplish this stimulation. The pancreatic esterase cleaves cholesteryl-oleate with a Km of 0.255 mM, releasing both cholesterol and oleate. Cholesterol exhibits a product inhibition which is relieved by isoform 2.1 but not 1.1 nor apolipoprotein A-I. The NH2-terminal 16 residues of isoform 2.1 had no effect on the esterase, but the 80 residue peptide constituting its COOH-terminus possessed the stimulatory property. Purified isoforms 1.1, 2.1, 2.2, apolipoprotein A-I, the NH2-terminal 16 residues and COOH-terminal 80 residues of isoform 2.1 were also examined for their effects on macrophage ACAT activity. Isoforms 2.1 and 2.2 produced dose dependent inhibitions of up to 50%, (p<0.001). Isoform 1.1, and apoA-I had no effect on ACAT activity. The NH2-terminal 16 residue peptide of isoform 2.1 reduced the ACAT activity in a dose dependent manner by 74% (p<0.001), whereas the COOH-terminal 80 residues, in contrast to its enhancing effect on the esterase, had no inhibitory effect on ACAT. Such complementary but opposite effects of isoform 2.1 on ACAT and the esterase are consistent with a role for this protein in shifting the balance between unesterified (transportable) and esterified (storage) forms of cholesterol in favor of the latter. They suggest that apoSAA2.1 may mediate cholesterol mobilization at sites of tissue injury.
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