Kinetics of SARS-CoV-2 Viral Load in Hospitalized Patients.

The rapid and accurate detection of infectious people is crucial in controlling outbreaks. The aim of this study was to evaluate the kinetics of the viral load expressed as Ct in COVID-19 hospitalized patients. Nasopharyngeal swab specimens were collected for RT-PCR testing. Forty-one subjects were recruited, of which 48.8% developed severe symptoms and 51.2% showed milder symptoms. The distribution of Ct values measured from the symptom onset showed that the kinetics of the viral load decreased with increasing time. A Ct of 25 (high viral load) was reached after a mean of 9.9 ± 4.8 days from the symptom onset, without a significant difference between patients with severe (10.9 ± 5.7 days) and milder (9.0 ± 3.9 days) symptoms. In 65.8% of cases, a high viral load was maintained for more than 7 days from the symptom onset, especially in patients with severe symptoms (70.6%). A Ct of 30 (moderate viral load) and of 38 (low viral load) were reached after a mean of 16.1 ± 8.1 and 28.5 ± 22.4 days from the symptom onset, respectively, with a significant difference between patients with severe (Ct = 30:17.9 ± 9.8 days; Ct = 38:34.6 ± 29.6 days) and milder (Ct = 30:14.3 ± 5.8 days; Ct = 38:22.7 ± 9.9 days) symptoms. These results provide an understanding of the viral kinetics of SARS-CoV-2 and have implications for pandemic control strategies and practices.

Dietary cholesterol supplementation and inhibitory factor 1 serum levels in two dizygotic Smith-Lemli-Opitz syndrome twins: a case report.

BACKGROUND: Smith-Lemli-Opitz syndrome (SLOS) is a rare genetic neurodevelopmental disorder caused by the defect in the 7-dehydrocholesterol reductase. This defect leads to the deficiency of cholesterol biosynthesis with accumulation of 7-dehydrocholesterol. Inhibitory factor 1 (IF1) is a well-known mitochondrial protein. Recently, it has been discovered in the human serum where it is reported to be involved in the HDL-cholesterol intake. Here we report the IF1 presence in the serum of two paediatric SLOS dizygotic twins treated with dietary cholesterol supplementation. CASE PRESENTATION: The patients showed a typical phenotype. They started dietary supplementation with cholesterol when 2 months old. The cholesterol intake was periodically titrated on the basis of weight increase and the twin 1 required a larger supplementation than the twin 2 during the follow-up. When 6.4-year-old, they underwent IF1 assay that was 7-fold increased in twin 2 compared to twin 1 (93.0 pg/ml vs 13.0 pg/ml, respectively). CONCLUSIONS: We report, for the first time, the presence of circulating IF1 in the serum of SLOS patients, showing different levels among them. Our findings confirm that IF1 could be a novel research target in cholesterol-related disorders and also in SLOS, and could contribute to the general debate on IF1 as a new modulator of cholesterol levels.

Systematic review of plasma-membrane ecto-ATP synthase: A new player in health and disease.

This review summarizes recent studies on plasma-membrane ecto-ATP synthase from structural and functional standpoints to possible pathophysiological roles. This review discusses significant new contributions and perspectives in the area of ecto-ATP synthase since the topic was last reviewed in 2015. Following an extensive summary of the cell types in which the ecto-ATP synthase is present, its structural and functional mechanism are discussed and physiological and pathological roles of the ecto-ATP synthase are reviewed and evaluated. Attempts to define the possible role of ecto-ATP synthase as possible target for anti-cancer and anti-obesity interventions are discussed.

Acute administration of 3,5-diiodo-L-thyronine to hypothyroid rats stimulates bioenergetic parameters in liver mitochondria.

The role of 3,5-diiodo-L-thyronine (T2), initially considered only a 3,3',5-triiodo-L-thyronine (T3) catabolite, in the bioenergetic metabolism is of growing interest. In this study we investigated the acute effects (within 1 h) of T2 administration to hypothyroid rats on liver mitochondria fatty acid uptake and ß-oxidation rate, mitochondrial efficiency (by measuring proton leak) and mitochondrial oxidative damage (by determining H2O2 release). Fatty acid uptake into mitochondria was measured assaying carnitine palmitoyl transferase (CPT) I and II activities, and fatty acid ß-oxidation using palmitoyl-CoA as a respiratory substrate. Mitochondrial fatty acid pattern was defined by gas-liquid chromatography. In hypothyroid + T2 vs hypothyroid rats we observed a raise in the serum level of nonesterified fatty acids (NEFA), in the mitochondrial CPT system activity and in the fatty acid ß-oxidation rate. A parallel increase in the respiratory chain activity, mainly from succinate, occurs. When fatty acids are chelated by bovine serum albumin, a T2-induced increase in both state 3 and state 4 respiration is observed, while, when fatty acids are present, mitochondrial uncoupling occurs together with increased proton leak, responsible for mitochondrial thermogenesis. T2 administration decreases mitochondrial oxidative stress as determined by lower H2O2 production. We conclude that in rat liver mitochondria T2 acutely enhances the rate of fatty acid ß-oxidation, and the activity of the downstream respiratory chain. The T2-induced increase in proton leak may contribute to mitochondrial thermogenesis and to the reduction of oxidative stress. Our results strengthen the previously reported ability of T2 to reduce adiposity, dyslipidemia and to prevent liver steatosis.

Function and expression study uncovered hepatocyte plasma membrane ecto-ATP synthase as a novel player in liver regeneration.

ATP synthase, canonically mitochondrially located, is reported to be ectopically expressed on the plasma membrane outer face of several cell types. We analysed, for the first time, the expression and catalytic activities of the ecto- and mitochondrial ATP synthase during liver regeneration. Liver regeneration was induced in rats by two-thirds partial hepatectomy. The protein level and the ATP synthase and/or hydrolase activities of the hepatocyte ecto- and mitochondrial ATP synthase were analysed on freshly isolated hepatocytes and mitochondria from control, sham-operated and partial hepatectomized rats. During the priming phase of liver regeneration, 3 h after partial hepatectomy, liver mitochondria showed a marked lowering of the ATP synthase protein level that was reflected in the impairment of both ATP synthesis and hydrolysis. The ecto-ATP synthase level, in 3 h partial hepatectomized hepatocytes, was decreased similarly to the level of the mitochondrial ATP synthase, associated with a lowering of the ecto-ATP hydrolase activity coupled to proton influx. Noteworthily, the ecto-ATP synthase activity coupled to proton efflux was completely inhibited in 3 h partial hepatectomized hepatocytes, even in the presence of a marked intracellular acidification that would sustain it as in control and sham-operated hepatocytes. At the end of the liver regeneration, 7 days after partial hepatectomy, the level and the catalytic activities of the ecto- and mitochondrial ATP synthase reached the control and sham-operated values. The specific modulation of hepatocyte ecto-ATP synthase catalytic activities during liver regeneration priming phase may modulate the extracellular ADP/ATP levels and/or proton influx/efflux trafficking, making hepatocyte ecto-ATP synthase a candidate for a novel player in the liver regeneration process.

Short-term type-1 diabetes differentially modulates 14-3-3 proteins in rat brain and liver.

BACKGROUND: The 14-3-3 proteins family consists of seven proteins that are highly conserved molecular chaperones with roles in the regulation of metabolism, signal transduction, cell cycle control, protein trafficking and apoptosis. Their role in several pathologies has been reported. In this study, we investigated the mRNA and protein expression of the 14-3-3s in rat brain and liver in the early stage of Type-1 diabetes (T1D). MATERIAL AND METHODS: Diabetes was induced by a single intraperitoneal injection (70 mg/kg bw) of freshly prepared streptozotocin (STZ), and, after 3 weeks of treatment, brain and liver nuclei and cytosolic extracts were prepared. Quantitative real-time PCR and Western blotting analyses were performed to evaluate mRNA and protein expression for each of the seven 14-3-3s. RESULTS: In nondiabetic control rats, the expression profile of 14-3-3s revealed a tissue-specific distribution, and the expression level of each isoform was found higher in the brain than in the liver. In the diabetic brain, mRNA and protein levels of the 14-3-3ß, ε, ζ, η and θ were lower; 14-3-3σ mRNA significantly increased while its protein level decreased. In the diabetic liver, the mRNA of 14-3-3γ, 14-3-3θ and 14-3-3σ significantly increased, but only the 14-3-3γ protein level increased. Overall, in diabetic animals, the changes in the expression levels of brain 14-3-3s were much more pronounced than in the liver. CONCLUSION: Our results indicate that during the early phase of STZ-induced T1D, the 14-3-3 proteins are affected in an isoform- and tissue-specific way.

Mitochondrial proteome analysis reveals depression of the Ndufs3 subunit and activity of complex I in diabetic rat brain.

Type-1 diabetes resulting from defective insulin secretion and consequent hyperglycemia, is associated with "diabetic encephalopathy." This is characterized by brain neurophysiological and structural changes resulting in impairment of cognitive function. The present proteomic analysis of brain mitochondrial proteins from streptozotocin-induced type-1 diabetic rats, shows a large decrement of the Ndufs3 protein subunit of complex I, decreased level of the mRNA and impaired catalytic activity of the complex in the diabetic rats as compared to controls. The severe depression of the expression and enzymatic activity of complex I can represent a critical contributing factor to the onset of the diabetic encephalopathy in type-1 diabetes.

HER2-based recombinant immunogen to target DCs through FcγRs for cancer immunotherapy.

Dendritic cell (DC)-based immunotherapy is an attractive approach to induce long lasting antitumor effector cells aiming to control cancer progression. DC targeting is a critical step in the design of DC vaccines in order to optimize delivery and processing of the antigen, and several receptors have been characterized for this purpose. In this study, we employed the FcγRs to target DCs both in vitro and in vivo. We designed a recombinant molecule (HER2-Fc) composed of the immunogenic sequence of the human tumor-associated antigen HER2 (aa 364-391) and the Fc domain of a human IgG(1). In a mouse model, HER2-Fc cDNA vaccination activated significant T cell-mediated immune responses towards HER2 peptide epitopes as detected by IFN-γ ELIspot and induced longer tumor latency as compared to Ctrl-Fc-vaccinated control mice. Human in vitro studies indicated that the recombinant HER2-Fc immunogen efficiently targeted human DCs through the FcγRs resulting in protein cross-processing and in the activation of autologous HER2-specific CD8(+) T cells from breast cancer patients.

MAGE-A and NY-ESO-1 expression in cervical cancer: prognostic factors and effects of chemotherapy.

OBJECTIVE: The aim of this study was to evaluate the prevalence of cancer testis tumor-associated antigens MAGE-A and NY-ESO-1 in cervical cancer and correlate expression patterns with clinicopathologic parameters and prognosis. STUDY DESIGN: One hundred sixty-two cervical cancer samples from 109 patients who were treated with radical hysterectomy, neoadjuvant chemotherapy, or pelvic disease recurrence were analyzed by immunohistochemistry. RESULTS: MAGE-A was expressed by 32/94 (34%) and 7/15 (47%) previously untreated and recurrent tumors, respectively. NY-ESO-1 was expressed by 46/94 (49%) and 6/15 (40%) previously untreated and recurrent tumors, respectively. MAGE-A in early stage tumors was correlated to tumor size and lymph node metastases (P = .024 and P = .046, respectively) whereas NY-ESO-1 to tumor grading (P = .039). CONCLUSION: Cervical cancer frequently expresses cancer testis tumor-associated antigens. MAGE-A and NY-ESO-1 expression rates are not influenced by systemic therapies. Cancer testis tumor-associated antigens are correlated to common prognostic factors.

RFA strongly modulates the immune system and anti-tumor immune responses in metastatic liver patients.

Radiofrequency tumor ablation (RFA) is a therapeutic modality for liver cancer patients inducing localized tumor necrosis with maximal preservation of normal liver parenchyma. We investigated the immunomodulatory effects exerted by RFA treatment in liver cancer patients with metastatic liver lesions (13 patients) or hepatocellular carcinoma (HCC) (4 patients). Analysis of lymphocyte subsets by flow cytometry revealed that after RFA, CD3+ T cells, in particular CD4+, were decreased in metastatic cancer patients, while no change was observed in HCC patients. Moreover, RFA induced trafficking of naïve and memory CD62L+ T cells from circulation to tissues. When characterizing the function of T cells, proliferative response to PHA was strongly increased after 48 h from RFA in metastatic cancer patients. Furthermore, T cells produced IFN-gamma in response to the tumor associated MUC1 antigen. In contrast, humoral immune responses against tumor antigens such as MUC1 and HCV proteins were unaffected by RFA treatment, although increase of circulating B cells was observed only in metastatic cancer patients. These results indicate that RFA application can exert an activating effect on the immune system in metastatic cancer patients, favouring trafficking of lymphocyte subsets and enhancing tumor antigen specific cellular immune responses.

A comparative analysis of serum and serum-free media for generation of clinical grade DCs.

Dendritic cells (DCs) are the most potent antigen presenting cells and are therefore widely used in cancer immunotherapy. An optimal method for the generation of DCs for clinical use remains to be established. The aim of the study was to find a serum-free media (SFM) able to generate reproducible and functional cultures of DCs for clinical studies. We characterized immature and mature DCs cultured in SFM, CellGro DC and X-VIVO15, and serum media (SM), RPMI 1640+5% human serum or autologous serum. The expression of HLA-DR, CD86, CD83 was higher in SM-cultured DCs (SM-DCs) than SFM-derived DCs (SFM-DCs). Between SFM-DCs, CellGro-cultured DCs (CellGro-DCs) showed a higher expression and an improved up-regulation capacity of all molecules as compared with X-VIVO15-derived DCs (X-VIVO15-DCs). CellGro-DCs and SM-DCs showed a similar mannose receptor expression and related endocytic capacity tested by fluorescein isothiocyanate-dextran uptake. In contrast X-VIVO15-DCs expressed low levels of mannose receptor and were unable to endocyte fluorescein isothiocyanate-dextran. DCs cultured in all conditions stimulated a mix lymphocyte reaction, but CellGro-DCs and SM-DCs induced a more potent T-cell proliferation compared with X-VIVO15-DCs. Cytokine analysis showed that after maturation, all DC cultures produced IL-12p70 and IL-10 except for X-VIVO15-DCs which only produced the latter cytokine. SM-DCs and SFM-DCs induced a TH1 polarization in allogeneic naive T cells. In conclusion, a comparative analysis of DC performance generated in different conditions allows us to determine CellGro DC as the optimal medium for the generation of clinical grade DCs.