TLR3 plays significant roles against hepatitis B virus

Hepatitis B virus (HBV) as the main prevalent infectious agent, play important roles in inducing severe liver diseases. Previous studies demonstrated that during prolonged forms of hepatitis B infection including chronic, asymptomatic and occult forms, patients are unable to eradicate HBV from hepatocytes completely. The main mechanisms responsible for development of the forms of hepatitis B are yet to be identified. Investigators suggested that the various genetic and immunological parameters of the patients may are responsible for resulting in the prolonged infection forms. It has been evidenced that TLRs play key roles in inducing appropriate immune responses, against viral infections. Therefore, these molecules can be considered as crucial sensors for HBV detection to induce immune responses against this virus. It has also been documented that the TLR3 detects intracellular viral dsRNA and subsequently activates NF-κB via the TRIF pathway. Therefore, impaired TLR3 expression may result in inappropriate immune responses against HBV which is reported in prolonged forms of hepatitis B. This review collected the recent information regarding the important roles of TLR3 in immune responses against HBV and also the status of TLR3 expression and its genetic variations in prolonged forms of HBV infections.     

Conquering the cytokine storm in COVID-19-induced ARDS using placenta-derived decidua stromal cells

Acute respiratory distress syndrome (ARDS) is the most common cause of death in COVID-19 patients. The cytokine storm is the main driver of the severity and magnitude of ARDS. Placenta-derived decidua stromal cells (DSCs) have a stronger immunosuppressive effect than other sources of mesenchymal stromal cells. Safety and efficacy study included 10 patients with a median age of 50 (range 14–68) years with COVID-19-induced ARDS. DSCs were administered 1–2 times at a dose of 1 × 10⁶/kg. End points were safety and efficacy by survival, oxygenation and effects on levels of cytokines. Oxygenation levels increased from a median of 80.5% (range 69–88) to 95% (range 78–99) (p = 0.012), and pulmonary infiltrates disappeared in all patients. Levels of IL-6 decreased from a median of 69.3 (range 35.0–253.4) to 11 (range 4.0–38.3) pg/ml (p = 0.018), and CRP decreased from 69 (range 5–169) to 6 (range 2–31) mg/ml (p = 0.028). Two patients died, one of a myocardial infarction and the other of multiple organ failure, diagnosed before the DSC therapy. The other patients recovered and left the intensive care unit (ICU) within a median of 6 (range 3–12) days. DSC therapy is safe and capable of improving oxygenation, decreasing inflammatory cytokine level and clearing pulmonary infiltrates in patients with COVID-19.     

Regulation of the Activity in the p53 Family Depends on the Organization of the Transactivation Domain

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Noninvasive cardiac output determination using inhaled oxygen-15-labeled carbon dioxide

Inhaled oxygen-15-labeled carbon dioxide (CO2*) is hydrated in the alveolar capillary blood to produce oxygen-15-labeled water (H2O*). This allows noninvasive delivery of a traceable indicator into the pulmonary circulation. Removal of oxygen-15 marker from the lung is a function of pulmonary perfusion. Two techniques were evaluated for computing cardiac output (CO) following single bolus inhalation of CO2*: 1) continuous monitoring of arterial blood activity through an external detector and 2) noninvasive positron imaging of oxygen-15-label washout from the chest and simultaneous emergence of activity in arterial blood. In seven mongrel dogs studied using technique 1, 46 determinations of CO were made from 1.2 to 8.0 l/min and compared with simultaneous indocyanine green dye-dilution determination. Correlation coefficient was 0.90 with slope of linear regression of 1.05. In 12 mongrel dogs studied using technique 2, 23 determinations of CO were made from 0.9 to 9.2 l/min and compared with simultaneous indocyanine green dye determination. Correlation coefficient was 0.985 (P less than 0.001) with slope of linear regression of 0.898. This noninvasive technique (2) for determination of CO is independent of assumptions regarding regional ventilation or perfusion of the lung and appears valid in animal studies.     

Persian sturgeon insulin-like growth factor I: molecular cloning and expression during various nutritional conditions

The effects of different periods of starvation (1, 2, 3, and 4 weeks) and subsequent re-feeding (over a 4 week) on the compensatory growth performance and insulin-like growth factor I (IGF-I) mRNA expression in liver and white muscle were investigated in juvenile Persian sturgeon (Acipenser persicus). First, a fragment of 617 nucleotides coding for IGF-I was cloned from liver, which included an open reading frame of 486 nucleotides, encoding a 162 amino acid preproIGF-I. This is composed of a 45 aa for signal peptide, a 117 aa for the mature peptide comprising the B, C, A, and D domains, and a 47 aa for E domain. The mature Persian sturgeon IGF-I exhibits high sequence identities with other sturgeon species and teleost, ranging between 68 and 95 %. The pattern of IGF-I mRNA expression in the liver and white muscle was measured in response to different periods of starvation and subsequent re-feeding. Nutritional status influenced IGF-I mRNA expression pattern in both liver and muscle. IGF-I mRNA expression in the liver increased during starvation, before decreasing after re-feeding. Furthermore, white muscle IGF-I mRNA expression showed better responses to nutritional status and decreased following starvation and increased by re-feeding. However, changes in the expression of IGF-I mRNA were not significantly different between any of the treatments in both tissues. These data suggest that muscle and liver IGF-I mRNA expression do not have a regulatory role for somatic growth induced by compensatory growth in Persain sturgeon.     

Adrenergic and cholinergic interaction in central ventilatory control

The ventrolateral medulla, which functions as integrator of cardiorespiratory control, contains cholinergic and adrenergic neurons. Exogenously administered cholinergic and adrenergic agents affect both ventilation and circulation. It is not clear whether these agents act in an independent or coordinate manner. beta-Adrenergic and alpha 2-adrenergic agents stimulate and depress the cardiorespiratory system, respectively. beta-Adrenergic and alpha 2-adrenergic agents stimulate and depress the production of adenosine 3',5'-cyclic monophosphate (cAMP), respectively. Increased intracellular cAMP may facilitate the release of acetylcholine (ACh). This work seeks to answer the following questions: 1) Are the cardiorespiratory effects of adrenergic agents secondary to possible changes in ACh release? 2) Does cAMP production have an intermediate role? By means of ventriculocisternal perfusion in anesthetized (pentobarbital sodium, 30 mg/kg) spontaneously breathing dogs, isoproterenol (ISO) increased ventilation (VE) 75% (P less than 0.05); heart rate and cardiac output were also increased (P less than 0.05). Esmolol (a beta-antagonist) blocked both the cardiovascular and ventilatory effects of ISO. Atropine (a cholinergic antagonist) blocked the ventilatory effects of ISO, but the circulatory changes persisted. Forskolin (a direct activator of adenylate cyclase) increased VE 51% (P less than 0.05), and its effect was also blocked by atropine. Clonidine decreased VE 42% (P less than 0.05); heart rate and cardiac output were also decreased.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation and detection of Leishmania species among naturally infected Rhombomis opimus, a reservoir host of zoonotic cutaneous leishmaniasis in Turkemen Sahara, North East of Iran

In Iran, three species of Leishmania have been incriminated as the causative agents of human leishmaniasis, Leishmania (L.) major, Leishmania tropica, and Leishmania infantum.Rhombomis opimus have been incriminated as a principal reservoirs of the parasitic protozoan Leishmania major, the causative agent of rural zoonotic cutaneous leishmaniasis (ZCL) in Iran. Rodents captured and examined to find Leishmania species using conventional methods including direct impression smear and microscopic observation inoculation samples to Balb/c and culture in NNN medium. Also molecular method was employed to detect Leishmania in rodents by amplifying a region of the ribosomal RNA amplicon of Leishmania (ITS1-5.8S rRNA–ITS2) using Nested PCR. Leshmania species were specified by DNA sequences. 36 (38.3%) of R. opimus were Leishmania positive using at least one conventional methods. Many more ITS-rDNA fragments were amplified from R. opimus but only 65 out of 74 PCR products contained enough DNA for direct sequencing or readable sequences. The PCR assays detected in Iranian R. opimus not only Leishmania major in 59 (79.7%) rodents but also Leishmania turanica in 6 (8.1%) rodents, another parasite of the great gerbil. These parasites were found in Turkemen Sahara, North East of Iran, in a focus of rural (ZCL). L. major and L. turanica in R. opimus firmly identified from Turkemen Sahara. Nine rodents with Leishmania infections unidentified which some were unreadable sequences, these could be mixed infections of L. major, L. turanica, Leishmania gerbillisensu lato and Leishmania close to L. gerbilli or a related species reported in sandflies previously from this location. The haplotypes of L. major and L. turanica were found to be identical to that of isolates of L. major and L. turanica from Iran and in GenBank elsewhere. R. opimus is probably the key reservoir in this ZCL focus because of its abundance and its infection rates with both L. major and L. turanica.