The SARS-CoV-2 pandemic have been affecting millions of people worldwide, since the beginning of 2020. COVID-19 can cause a wide range of clinical symptoms, which varies from asymptomatic presentation to severe respiratory insufficiency, exacerbation of immune response, disseminated microthrombosis and multiple organ failure, which may lead to dead. Due to the rapid spread of SARS-CoV-2, the development of vaccines to minimize COVID-19 severity in the world population is imperious. One of the employed techniques to produce vaccines against emerging viruses is the synthesis of recombinant proteins, which can be used as immunizing agents. Based on the exposed, the aim of the present study was to verify the systemic and immunological effects of IM administration of recombinant Nucleocapsid protein (NP), derived from SARS-CoV-2 and produced by this research group, in 2 different strains of rats (Rattus norvegicus); Wistar and Lewis. For this purpose, experimental animals received 4 injections of NP, once a week, and were submitted to biochemical and histological analysis. Our results showed that NP inoculations were safe for the animals, which presented no clinical symptoms of worrying side effects, nor laboratorial alterations in the main biochemical and histological parameters, suggesting the absence of toxicity induced by NP. Moreover, NP injections successfully triggered the production of specific anti-SARS-CoV-2 IgG antibodies by both Wistar and Lewis rats, showing the sensitization to have been well sufficient for the immunization of these strains of rats. Additionally, we observed the local lung activation of the Bronchus-Associated Lymphoid Tissue (BALT) of rats in the NP groups, suggesting that NP elicits specific lung immune response. Although pre-clinical and clinical studies are still required, our data support the recombinant NP produced by this research group as a potential immunizing agent for massive vaccination, and may represent advantages upon other recombinant proteins, since it seems to induce specific pulmonary protection.
The ongoing COVID-19 pandemic represents an extra burden in the majority of public and private health systems worldwide beyond the most pessimistic expectations, driving an urgent rush to develop effective vaccines and effective medical treatments against the SARS-CoV-2 pandemic. The Nucleocapsid structural viral protein is remarkably immunogenic and hugely expressed during infection. High IgG antibodies against Nucleocapsid protein (N protein) levels were detected in the serum of COVID-19 patients, confirming its pivotal antigen role for a T lymphocyte response in a vaccine microenvironment. Currently, adverse events associated with immunizations have raised some degree of concern, irrespective of its huge benefits in dealing with disease severity and decreasing mortality and morbidity. This hitherto study evaluates histological changes in rats’ testes, epididymis, prostate, and seminal vesicles and analyzes hormone levels after solely N protein inoculation. Therefore, we exposed a group of Lewis rats to weekly injections of the recombinant N protein for 28 days, while a control group was inoculated with a buffer solution. The N group revealed a more significant number of spermatozoa. Spermatozoa in the seminiferous tubules were counted in twenty 400 × microscopy fields (mean of 9.2 vs. 4.6 in the control group; p < 0,01), but significantly lower testosterone levels (mean of 125.70 ng/dl vs. 309,00 ng/dl in the control group; p < 0,05) were found. No other histological and biochemical changes were displayed. Conclusively, these data suggest testicular hormonal imbalance mediated by the SARS-CoV-2 N protein that could be linked to reported post-COVID-19 syndrome hypogonadism. More relevant research might be performed to confirm this viral antigen’s deleterious mechanism in the human testicular microenvironment, particular in Leydig cell function.
The SARS-CoV-2 pandemic have been affecting millions of people worldwide, since the beginning of 2020. COVID-19 can cause a wide range of clinical symptoms, which varies from asymptomatic presentation to severe respiratory insufficiency, exacerbation of immune response, disseminated microthrombosis and multiple organ failure, which may lead to dead. Due to the rapid spread of SARS-CoV-2, the development of vaccines to minimize COVID-19 severity in the world population is imperious. One of the employed techniques to produce vaccines against emerging viruses is the synthesis of recombinant proteins, which can be used as immunizing agents. Based on the exposed, the aim of the present study was to verify the systemic and immunological effects of IM administration of recombinant Nucleocapsid protein (NP), derived from SARS-CoV-2 and produced by this research group, in 2 different strains of rats (Rattus norvegicus); Wistar and Lewis. For this purpose, experimental animals received 4 injections of NP, once a week, and were submitted to biochemical and histological analysis. Our results showed that NP inoculations were safe for the animals, which presented no clinical symptoms of worrying side effects, nor laboratorial alterations in the main biochemical and histological parameters, suggesting the absence of toxicity induced by NP. Moreover, NP injections successfully triggered the production of specific anti-SARS-CoV-2 IgG antibodies by both Wistar and Lewis rats, showing the sensitization to have been well sufficient for the immunization of these strains of rats. Additionally, we observed the local lung activation of the Bronchus-Associated Lymphoid Tissue (BALT) of rats in the NP groups, suggesting that NP elicits specific lung immune response. Although pre-clinical and clinical studies are still required, our data support the recombinant NP produced by this research group as a potential immunizing agent for massive vaccination, and may represent advantages upon other recombinant proteins, since it seems to induce specific pulmonary protection.
Background and Aims Chronic kidney disease (CKD) is an insidious, progressive and highly debilitating condition, which leads to the loss of renal function and to the need of life-sustaining renal replacement therapy. The conservative treatment of CKD is mainly based in the blockade of the renin-angiotensin-aldosterone system (RAAS), which can be associated to immunosuppressant drugs, according to the etiology of the renal injury. However, this pharmacological approach is not able to prevent CKD progression completely. Until the present moment, medical community still lack of a specific drug to effectively stop the progression of renal fibrosis associated to CKD, which once triggered became irreversible. Tamoxifen (TAM) is an estrogen receptor antagonist, widely employed for the clinical treatment of breast cancer, and responsible for saving a number of lives worldwide, in the past decades. This well-tolerated and cost-effective drug have been reported to exert antifibrotic effects in both experimental and human peritoneal fibrosis. Moreover, our research group already demonstrated that TAM efficiently prevented albuminuria, glomerulosclerosis, and interstitial fibrosis in a model of CKD. In the present study, we investigated if the association of TAM to the classic conservative treatment of CKD, here obtained by the association of Losartan (LOS) and Micofenolate Mofetil (MMF), could promote further renoprotection in an experimental model of hypertensive nephrosclerosis, induced by the chronic nitric oxide synthase blockade, obtained by the oral administration of L-NAME (NAME), associated to a high sodium (HS) diet, in rats. Method The experimental protocol was approved by the local Research Ethics Committee (CAPPesq) and was developed in strict conformity with the international standards for care and manipulation of laboratory animals. Thirty male Wistar rats were kept with a 3.2% HS diet for 15 days of adaptation, before the protocol start. After this period, the animals continued to receive the HS diet and were divided among 5 groups. CONT: receiving no further drugs or treatments, NAME: treated with 70 mg/kg/d of L-NAME, diluted in drinking water, LOS: NAME rats treated with 50mg/Kg/d of LOS, also diluted in drinking water, MMF: NAME rats treated with 10 mg/Kg/d of MMF given by gavage, TAM: NAME rats treated with 10 mg/Kg/d also by gavage, and LOS+MMF+TAM: NAME rats treated with all the drugs simultaneously. Systolic blood pressure (SBP), urinary albumin excretion (24 h uAE), glomerulosclerosis (GS), glomerular ischemia (GI), interstitial fibrosis (INT), tubulointerstitial infiltration of macrophages (CD68) and T-cells (CD3), as well as renal cortical interstitial collagen I (COLL1) and fibronectin (FIBRO) accumulation were evaluated after 30 days of treatment. Results The association of TAM to the classic treatment of CKD improved the renoprotection obtained by LOS+MMF. The triple combined treatment significantly reduced hypertension, albuminuria, glomerular structural damage, renal macrophage and T-cell infiltration in NAME rats, compared to the animals treated with the respective monotherapies. Moreover, both TAM alone or the association, were equally effective in reducing interstitial collagen and fibronectin accumulation, in NAME rats. Data are presented as Mean ± SE. For One-way ANOVA statistical analysis, we considered: p<0.05 vs.*CONT, #NAME, †LOS, §MMF, &TAM. Conclusion Our preliminary results shown TAM to be effective in reducing renal inflammation and fibrosis in the chronic nitric oxide synthase blockade model and to exert additional renoprotective effects when associated to LOS and MMF in all the analyzed parameters. Although further studies with different nephropathy models are still required in order to confirm our findings, here we suggest TAM to be a potential adjuvant in the conservative management of CKD.
Background and Aims Chronic kidney disease (CKD) is considered a public health concern worldwide, both due to its insidious and highly debilitating feature and to its high global prevalence. Clinical management of CKD is often achieved by the blockade of the renin-angiotensin-aldosterone system (RAAS). However, this treatment alone is not efficient to prevent CKD progression completely, motivating the scientific community to search for alternative treatments to control CKD progression and to detain its evolution to the end-stage renal failure. In this context, we have recently shown that the association of a single renal subcapsular injection of 2 × 106 adipose-derived mesenchymal stem cells (ASC) to RAAS blockade with the AT1RB Losartan (LOS) promoted greater renoprotection when compared to LOS monotherapy, leading to the normalization of urinary protein excretion (UPE) and to the regression of established glomerulosclerosis (GS), in experimental CKD. Since there are methodological limits for the number of ASC that can be injected under the renal capsule, and based on the current literature, which suggests the main beneficial effects of ASC are not due to direct in situ cell differentiation, but to paracrine factors produced and released by the ASC; in the present study we aimed to investigate if the association of a renal subcapsular injection of extracellular vesicles (EV) derived from ASC, to the oral treatment with LOS would promote additional renoprotective effects in a model of experimental CKD. Method The present experimental protocol was approved by the Ethics Committee for the Use of Experimental Animals of the University of São Paulo Medical School (CEUA-FMUSP No 1761/2022). EV were obtained from ASC isolated from gonadal adipose tissue of 5 male Wistar rats. Cells were cultured until P4, characterized by flow cytometry and in vitro differentiation, and kept under serum deprivation for 24 h. The conditioned culture media, containing the EV released by these cells, was ultracentrifuged and the resulting EV pellets were diluted in 100 μL of sterile PBS and used for the renal subcapsular injections. Experimental CKD was induced in 25 male Wistar rats through the surgical ligation of 2 from the 3 branches of the left renal artery, followed by the total nephrectomy of the right kidney, resulting in a 5/6 renal ablation. Additional 10 Sham-operated rats were used as control. After 15 days from surgery, the animals submitted to renal ablation were stratified into 3 groups, with closely similar mean values of body weight (BW), systolic blood pressure (SBP), UPE and urinary albumin excretion (UAE), before the start of the different treatments. Animals from CKD group were kept untreated, LOS and LOS+EV animals received diary 50 mg/Kg/d of Losartan, diluted in drinking water and LOS+EV rats underwent a second surgery for the renal subcapsular application of EV. All animals were followed until 30 days after CKD induction, when BW, SBP, UPE and UAE were analyzed again. Animals where then euthanized for the assessment of serum creatinine (SCr) and blood urea nitrogen (BUN) concentration, as well as for histological studies to determine the percentage of GS and the renal interstitial infiltration by macrophages (CD68). Results The association of a single subcapsular injection of EV derived from ASC, to the oral treatment with the AT1RB LOS, significantly improved the effects of this antihypertensive drug. CKD+LOS+EV animals exhibited normal SBP, in spite of having only 1/6 of functioning renal mass. Moreover, the combined treatment significantly reduced UAE and numerically diminished de percentage of glomerulosclerosis, compared to LOS alone. Detailed obtained results are presented in Table 1. Data are presented as Mean ± SE. Differences among groups were analyzed by one-way ANOVA: p<0.05 vs.*CONT, #CKD, †LOS. as Mean ± SE. Conclusion Despite the small number of animals in the association group, our preliminary results suggest EV from ASC to exert additional renoprotective effects when associated to LOS, especially regarding the control of SBP and the protection of the glomerular filtration barrier integrity.
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