PAULO SERGIO MARTINS DE ALCANTARA
Projetos de Pesquisa
Unidades Organizacionais
DVCLCIR-62, Hospital Universitário
LIM/26 - Laboratório de Pesquisa em Cirurgia Experimental, Hospital das Clínicas, Faculdade de Medicina
LIM/26 - Laboratório de Pesquisa em Cirurgia Experimental, Hospital das Clínicas, Faculdade de Medicina
6 resultados
Resultados de Busca
Agora exibindo 1 - 6 de 6
- Lipases and lipid droplet-associated protein expression in subcutaneous white adipose tissue of cachectic patients with cancer(2017) SILVERIO, Renata; LIRA, Fabio S.; OYAMA, Lila M.; NASCIMENTO, Claudia M. Oller do; OTOCH, Jose P.; ALCANTARA, Paulo S. M.; BATISTA JR., Miguel L.; SEELAENDER, MariliaBackground: Cancer cachexia is a multifactorial metabolic syndrome characterized by marked loss of adipose tissue and skeletal muscle. Fat loss from adipose tissue in cancer cachexia is partly the result of increased lipolysis. Despite the growing amount of studies focused on elucidating the mechanisms through which lipolysis-related proteins regulate the lipolytic process, there are scarce data concerning that profile in the adipose tissue of cancer cachectic patients. Considering its fundamental importance, it was our main purpose to characterize the expression of the lipolysis-related proteins in the white adipose tissue of cachectic cancer patients. Methods: Patients from the University Hospital were divided into three groups: control, cancer cachexia (CC), and weight-stable cancer patients (WSC). To gain greater insight into adipose tissue wasting during cancer cachexia progression, we have also analyzed an experimental model of cachexia (Walker 256 carcinosarcoma). Animals were divided into: control, intermediate cachexia (IC) and terminal cachexia (TC). Subcutaneous white adipose tissue of patients and epidydimal white adipose tissue of animals were investigated regarding molecular aspects by determining the protein content and gene expression of hormone-sensitive lipase (HSL), adipose triglyceride lipase (ATGL), comparative gene identification-58 (CGI-58), perilipin 1, leptin, adiponectin, visfatin, and tumour necrosis factor alpha (TNF-alpha). Results: We found augmented lipolysis in CC associated with increased HSL expression, as well as upregulation of ATGL expression and reduction in perilipin 1 content. In IC, there was an imbalance in the secretion of pro-and anti-inflammatory factors. The alterations at the end-stage of cachexia were even more profound, and there was a reduction in the expression of almost all proteins analyzed in the animals. Conclusions: Our findings show that cachexia induces important morphological, molecular, and humoral alterations in the white adipose tissue, which are specific to the stage of the syndrome.
- Cancer Cachexia and MicroRNAs(2015) CAMARGO, Rodolfo Gonzalez; RIBEIRO, Henrique Quintas Teixeira; GERALDO, Murilo Vieira; MATOS-NETO, Emidio; NEVES, Rodrigo Xavier; CARNEVALI JR., Luiz Carlos; DONATTO, Felipe Fedrizzi; ALCANTARA, Paulo S. M.; OTTOCH, Jose P.; SEELAENDER, MariliaCancer cachexia is a paraneoplastic syndrome compromising quality of life and survival, mainly characterized by involuntary weight loss, fatigue, and systemic inflammation. The syndrome is described as a result of tumor-host interactions characterized by an inflammatory response by the host to the presence of the tumor. Indeed, systemic inflammation is considered a pivotal feature in cachexia progression and maintenance. Cytokines are intimately related to chronic systemic inflammation and the mechanisms underlying the release of these factors are not totally elucidated, the etiology of cachexia being still not fully understood. Therefore, the understanding of cachexia-related mechanisms, as well as the establishment of markers for the syndrome, is very relevant. MicroRNAs (miRNAs) are a class of noncoding RNAs interfering with gene regulation. Different miRNA expression profiles are associated with different diseases and inflammatory processes. miRNAs modulate adipose and skeletal muscle tissue metabolism in cancer cachexia and also tumor and tissue derived inflammation. Therefore, we propose a possible role for miRNAs in the modulation of the host inflammatory response during cachexia. Moreover, the establishment of a robust body of evidence in regard to miRNAs and the mechanisms underlying cachexia is mandatory, and shall contribute to the improvement of its diagnosis and treatment.
- Activation of the Adipose Tissue NLRP3 Inflammasome Pathway in Cancer Cachexia(2021) JESUS, Joyce de Cassia Rosa de; MURARI, Ariene Soares de Pinho; RADLOFF, Katrin; MORAES, Ruan Carlos Macedo de; FIGUEREDO, Raquel Galvao; PESSOA, Ana Flavia Marcal; ROSA-NETO, Jose Cesar; MATOS-NETO, Emidio Marques; ALCANTARA, Paulo S. M.; TOKESHI, Flavio; MAXIMIANO, Linda Ferreira; BIN, Fang Chia; FORMIGA, Fernanda Bellotti; OTOCH, Jose P.; SEELAENDER, MariliaBackground Cachexia is a paraneoplastic syndrome that accompanies and compromises cancer treatment, especially in advanced stages, affecting the metabolism and function of several organs. The adipose tissue is the first to respond to the presence of the tumor, contributing to the secretion of factors which drive the systemic inflammation, a hallmark of the syndrome. While inflammation is a defensive innate response, the control mechanisms have been reported to be disrupted in cachexia. On the other hand, little is known about the role of NLRP3 inflammasome in this scenario, a multiprotein complex involved in caspase-1 activation and the processing of the cytokines IL-1 beta and IL-18. Aim based on the evidence from our previous study with a rodent model of cachexia, we examined the activation of the NLRP3 inflammasome pathway in two adipose tissue depots obtained from patients with colorectal cancer and compared with that another inflammatory pathway, NF-kappa B. Results For CC we found opposite modulation in ScAT and PtAT for the gene expression of TLR4, Caspase-1 (cachectic group) and for NF-kappa B p50, NF-kappa B p65, IL-1 beta. CD36, expression was decreased in both depots while that of NLRP3 and IL-18 was higher in both tissues, as compared with controls and weight stable patients (WSC). Caspase-1 basal protein levels in the ScAT culture supernatant were higher in WSC and (weight stable patients) CC, when compared to controls. Basal ScAT explant culture medium IL-1 beta and IL-18 protein content in ScAT supernatant was decreased in the WSC and CC as compared to CTL explants. Conclusions The results demonstrate heterogeneous responses in the activation of genes of the NLRP3 inflammasome pathway in the adipose tissue of patients with cancer cachexia, rendering this pathway a potential target for therapy aiming at decreasing chronic inflammation in cancer.
- Cachexia-associated adipose tissue morphological rearrangement in gastrointestinal cancer patients(2016) BATISTA JR., Miguel L.; HENRIQUES, Felipe S.; NEVES, Rodrigo X.; OLIVAN, Mireia R.; MATOS-NETO, Emidio M.; ALCANTARA, Paulo S. M.; MAXIMIANO, Linda F.; OTOCH, Jose P.; ALVES, Michele J.; SEELAENDER, MariliaBackground and aimsCachexia is a syndrome characterized by marked involuntary loss of body weight. Recently, adipose tissue (AT) wasting has been shown to occur before the appearance of other classical cachexia markers. We investigated the composition and rearrangement of the extracellular matrix, adipocyte morphology and inflammation in the subcutaneous AT (scAT) pad of gastrointestinal cancer patients. MethodsSurgical biopsies for scAT were obtained from gastrointestinal cancer patients, who were signed up into the following groups: cancer cachexia (CC, n=11), weight-stable cancer (WSC, n=9) and weight-stable control (non-cancer) (control, n=7). The stable weight groups were considered as those with no important weight change during the last year and body mass index <25kg/m(2). Subcutaneous AT fibrosis was quantified and characterized by quantitative PCR, histological analysis and immunohistochemistry. ResultsThe degree of fibrosis and the distribution and collagen types (I and III) were different in WSC and CC patients. CC patients showed more pronounced fibrosis in comparison with WSC. Infiltrating macrophages surrounding adipocytes and CD3 Ly were found in the fibrotic areas of scAT. Subcutaneous AT fibrotic areas demonstrated increased monocyte chemotactic protein 1 (MCP-1) and Cluster of Differentiation (CD)68 gene expression in cancer patients. ConclusionsOur data indicate architectural modification consisting of fibrosis and inflammatory cell infiltration in scAT as induced by cachexia in gastrointestinal cancer patients. The latter was characterized by the presence of macrophages and lymphocytes, more evident in the fibrotic areas. In addition, increased MCP-1 and CD68 gene expression in scAT from cancer patients may indicate an important role of these markers in the early phases of cancer.
- Role of Exosomal MicroRnAs and myomiRs in the Development of Cancer Cachexia-Associated Muscle Wasting(2018) MARINHO, Rodolfo; ALCANTARA, Paulo S. M.; OTTOCH, Jose P.; SEELAENDER, MariliaCachexia is a complex metabolic syndrome that promotes great weight loss, with marked muscle mass wasting. In the last years, many efforts have been directed to improve the understanding of the mechanisms involved in the disease. This syndrome is present in up to 80% of cancer patients and, despite its clinical relevance, is underdiagnosed. The orchestration of the molecular and biochemical disruptions observed in cachexia is paralleled by inflammation and the communication among the different body compartments, including the tumor and the skeletal muscle, is still not completely described. One of the mechanisms that may be involved in the transduction of the inflammatory signals and the activation of catabolic status in muscle is the participation of exosomes containing microRNAs (miRNAs) and muscle-specific miRNAs (myomiRs). Exosomes are nanovesicles, measuring from 30 to 100 mu m, and able to carry miRNAs in the circulation, promoting cell-cell and tissue-tissue communication in an autocrine, paracrine, and endocrine manner. miRNAs transported in exosomes are preserved from degradation, while these nanoparticles deliver the cargo to specific cell targets, making communication more efficient. Several miRNAs are known to modulate inflammatory pathways, to induce metastasis, to mediate cancer aggressiveness and even to participate in the regulation of protein synthesis and degradation pathways in the skeletal muscle. The aim of this mini-review is to describe the present knowledge about the role of exosomal miRNAs and myomiRs in the induction of muscle mass wasting in cancer cachexia state and to explain which transcription factors, proteins, and pathways are regulated by these molecules.
- Myokines in treatment-na & iuml;ve patients with cancer-associated cachexia(2021) CASTRO, Gabriela S. de; CORREIA-LIMA, Joanna; SIMOES, Estefania; ORSSO, Camila E.; XIAO, Jingjie; GAMA, Leonardo R.; GOMES, Silvio P.; GONCALVES, Daniela Caetano; COSTA, Raquel G. F.; RADLOFF, Katrin; LENZ, Ulrike; TARANKO, Anna E.; BIN, Fang Chia; FORMIGA, Fernanda B.; GODOY, Louisie G. L. de; SOUZA, Rafael P. de; NUCCI, Luis H. A.; FEITOZA, Mario; CASTRO, Claudio C. de; TOKESHI, Flavio; ALCANTARA, Paulo S. M.; OTOCH, Jose P.; RAMOS, Alexandre F.; LAVIANO, Alessandro; COLETTI, Dario; MAZURAK, Vera C.; PRADO, Carla M.; SEELAENDER, MariliaCancer-associated cachexia is a complex metabolic syndrome characterized by weight loss and systemic inflammation. Muscle loss and fatty infiltration into muscle are associated with poor prognosis in cancer patients. Skeletal muscle secretes myokines, factors with autocrine, paracrine and/or endocrine action, which may be modified by or play a role in cachexia. This study examined myokine content in the plasma, skeletal muscle and tumor homogenates from treatment-na & iuml;ve patients with gastric or colorectal stages I-IV cancer with cachexia (CC, N = 62), or not (weight stable cancer, WSC, N = 32). Myostatin, interleukin (IL) 15, follistatin-like protein 1 (FSTL-1), fatty acid binding protein 3 (FABP3), irisin and brain-derived neurotrophic factor (BDNF) protein content in samples was measured with Multiplex technology; body composition and muscle lipid infiltration were evaluated in computed tomography, and quantification of triacylglycerol (TAG) in the skeletal muscle. Cachectic patients presented lower muscle FSTL-1 expression (p = 0.047), higher FABP3 plasma content (p = 0.0301) and higher tumor tissue expression of FABP3 (p = 0.0182), IL-15 (p = 0.007) and irisin (p = 0.0110), compared to WSC. Neither muscle TAG content, nor muscle attenuation were different between weight stable and cachectic patients. Lumbar adipose tissue (AT) index, visceral AT index and subcutaneous AT index were lower in CC (p = 0.0149, p = 0.0455 and p = 0.0087, respectively), who also presented lower muscularity in the cohort (69.2% of patients; p = 0.0301), compared to WSC. The results indicate the myokine profile in skeletal muscle, plasma and tumor is impacted by cachexia. These findings show that myokines eventually affecting muscle wasting may not solely derive from the muscle itself (as the tumor also may contribute to the systemic scenario), and put forward new perspectives on cachexia treatment targeting myokines and associated receptors and pathways. (c) 2020 The Author(s).