Ghrelin for the management of cachexia associated with cancer

Multimodal interventions for cachexia management

BACKGROUND

Cachexia (disease-related wasting) is a complex metabolic syndrome which occurs in people with chronic illnesses, including cancer, HIV/AIDS, kidney disease, heart disease, and chronic obstructive pulmonary disease (COPD). People with cachexia experience unintentional weight loss, muscle loss, fatigue, loss of appetite, and reduced quality of life. Multimodal interventions which work synergistically to treat the syndrome could lead to benefits.

OBJECTIVES

To assess the benefits and harms of multimodal interventions aimed at alleviating or stabilising cachexia in people with a chronic illness.

SEARCH METHODS

We searched CENTRAL, MEDLINE, Embase, PsycINFO, and two trials registers in July 2024, together with reference checking, citation searching, and contact with study authors to identify studies.

SELECTION CRITERIA

We included randomised controlled trials (RCTs) in adults with or at risk of cachexia, comparing multimodal interventions combining two or more modalities (of pharmacology, nutrition, exercise) to treatment as usual, variation of the intervention, or unimodal intervention.

DATA COLLECTION AND ANALYSIS

Two review authors independently screened potentially eligible studies, extracted data, and assessed risk of bias (RoB 1). Primary outcomes were physical function, strength, and adverse events. Secondary outcomes were body composition and weight, quality of life (QoL), appetite, fatigue, and biochemical markers. We assessed the certainty of evidence with GRADE.

MAIN RESULTS

We included nine studies with 926 adults (mean age: 63 years). Study sample sizes ranged from 20 to 332 participants. Six studies were conducted in Europe, and one each in Turkey, New Zealand, and the USA. There were six studies in people with cancer, and one each in people with COPD, chronic kidney disease, and HIV/AIDS. We judged four studies to be at an overall high risk of bias, and five at an overall unclear risk. All outcomes in all comparisons had very low-certainty evidence, downgraded once for risk of bias and/or indirectness and twice for imprecision. Multimodal intervention (pharmacological, nutritional, and/or exercise) compared to treatment as usual One cancer study randomised 46 participants, with 41 included in all analyses except adverse events. The study assessed outcomes immediately after treatment, lasting six weeks. Compared to treatment as usual, there is no clear evidence for an effect of a multimodal intervention on: physical function (mean difference (MD) -16.10 m, 95% confidence interval (CI) -79.06 to 46.86; 41 participants); strength (MD 3.80 kg, 95% CI -3.21 to 10.81; 41 participants); adverse events (risk ratio (RR) 1.36, 95% CI 0.70 to 2.65; 46 participants); body composition (MD 7.89 cm2, 95% CI -10.43 to 26.21; 41 participants); weight (MD 5.89 kg, 95% CI -1.45 to 13.23; 41 participants); appetite (MD 0.68 points, 95% CI -0.60 to 1.96; 41 participants); fatigue (MD 0.12, 95% CI -1.05 to 1.29; 41 participants); and biochemical markers (MD 2%, 95% CI 0.99 to 3.01; 41 participants), but the evidence was very uncertain; QoL was not reported. Multimodal intervention compared to variation of the intervention Three cancer studies and one HIV/AIDS study randomised 192 participants. We could not use the available data, nor obtain additional data, from two studies (one in cancer, one in HIV/AIDS). The studies assessed outcomes immediately after treatment, ranging from three to seven months. Compared to a variation of the intervention, there is no clear evidence for an effect of a multimodal intervention on: physical function (MD 10.0 m, 95% CI -36.27 to 56.27; 1 study, 56 participants); strength (MD 0.7 kg, 95% CI -3.75 to 5.15; 1 study, 56 participants); adverse events (RR 0.87, 95% CI 0.38 to 2.02; P = 0.75, I2 = 0%; 2 studies, 95 participants); body composition (MD -2.67 kg, 95% CI -5.89 to 0.54; P = 0.10, I2 = 0%; 2 studies, 95 participants); weight (MD -2.47 kg, 95% CI -7.11 to 2.16; P = 0.30, I2 = 0%; 2 studies, 95 participants); QoL (standardised mean difference (SMD) -0.15, 95% CI -0.55 to 0.26; P = 0.47, I2 = 0%; 2 studies, 95 participants); appetite (SMD -0.34, 95% CI -1.27 to 0.59; P = 0.48, I2 = 79%; 2 studies, 95 participants); fatigue (MD 6.40 points, 95% CI -1.10 to 13.90; 1 study, 56 participants); or biochemical markers (MD 9.80 pg/mL, 95% CI -6.25 to 25.85; P = 0.23, I2 = 73%; 2 studies, 95 participants), but the evidence is very uncertain. Multimodal intervention compared to unimodal intervention We included six studies (802 participants) in this comparison: three cancer studies, and one each in people with COPD, chronic kidney disease, and HIV/AIDS. The studies assessed outcomes immediately after treatment, ranging from three to seven months. We could not use the available data, nor obtain additional data, from the HIV/AIDS study. Compared to a unimodal intervention, there is no clear evidence for an effect of a multimodal intervention on: physical function (SMD 0.02, 95% CI -0.22 to 0.26; P = 0.86, I2 = 0%; 2 studies, 348 participants); strength (SMD 0.23, 95% CI -0.81 to 1.27; P = 0.66, I2 = 0%; 2 studies, 348 participants); adverse events (RR 0.87, 95% CI -0.43 to 1.73; P = 0.68, I2 = 45%; 2 studies, 395 participants); body composition (SMD 0.11, 95% CI -0.28 to 0.50; P = 0.58, I2 = 74%; 5 studies, 742 participants); body weight (SMD -0.02, 95% CI -0.38 to 0.33; P = 0.90, I2 = 49%; 4 studies, 431 participants); QoL (SMD 0.22, 95% CI -0.29 to 0.73; P = 0.39, I2 = 61%; 3 studies, 411 participants); appetite (SMD -0.09, 95% CI -0.58 to 0.40; P = 0.72, I2 = 58%; 2 studies, 395 participants); fatigue (MD -6.80 points, 95% CI -12.44 to -1.17; 1 study, 244 participants); and biochemical markers (SMD 0.11, 95% CI -0.59 to 0.80; P = 0.76, I2 = 79%; 3 studies, 411 participants), but the evidence is very uncertain.

AUTHORS' CONCLUSIONS

The review found insufficient evidence to support or refute the use of multimodal interventions in managing cachexia. The certainty of the evidence was very low. Methodologically rigorous, well-powered RCTs with adequate interaction times are needed to assess the effectiveness of multimodal interventions in managing cachexia across chronic illnesses.

Integrated bioinformatics, network pharmacology, and artificial intelligence to predict the mechanism of celastrol against muscle atrophy caused by colorectal cancer

Muscle atrophy due to colorectal cancer severely reduces the quality of life and survival time of patients. However, the underlying causative mechanisms and therapeutic agents are not well understood. The aim of this study was to screen and identify the microRNA (miRNA)–mRNA regulatory network and therapeutic targets of celastrol in colorectal cancer causing muscle atrophy via blood exosomes. Datasets were downloaded from the Gene Expression Omnibus online database. Differential expression analysis was first performed using the blood exosome dataset GSE39833 from colorectal cancer and normal humans to identify differentially expressed (DE) miRNAs, and then, transcriptional enrichment analysis was performed to identify important enriched genes. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway enrichment analyses were performed by FunRich software. Using the muscle atrophy sample GSE34111, the DE mRNAs in the muscle atrophy sample were analyzed, a regulatory network map was established based on miRNA‒mRNA regulatory mechanisms, further GO and KEGG enrichment analyses were performed for the DE genes in muscle atrophy via Cytoscape’s ClueGO plug-in, and the network pharmacology pharmacophore analysis method was used to analyze the celastrol therapeutic targets, taking intersections to find the therapeutic targets of celastrol, using the artificial intelligence AlphaFold2 to predict the protein structures of the key targets, and finally using molecular docking to verify whether celastrol and the target proteins can be successfully docked. A total of 82 DE miRNAs were obtained, and the top 10 enriched target genes were identified. The enrichment of the 82 miRNAs showed a close correlation with muscle atrophy, and 332 DE mRNAs were found by differential expression analysis in muscle atrophy samples, among which 44 mRNA genes were involved in miRNA‒mRNA networks. The DE genes in muscle atrophy were enriched for 30 signaling pathways, and 228 target genes were annotated after pharmacophore target analysis. The NR1D2 gene, the target of treatment, was found by taking intersections, the protein structure of this target was predicted by AlphaFold2, and the structure was successfully docked and validated using molecular docking. In our present study, colorectal cancer likely enters the muscle from blood exosomes and regulates skeletal muscle atrophy through miRNA‒mRNA regulatory network mechanisms, and celastrol treats muscle through NR1D2 in the miRNA‒mRNA regulatory network.

Cancer cachexia as a multiorgan failure: Reconstruction of the crime scene

Cachexia is a devastating syndrome associated with the end-stage of several diseases, including cancer, and characterized by body weight loss and severe muscle and adipose tissue wasting. Although different cancer types are affected to diverse extents by cachexia, about 80% of all cancer patients experience this comorbidity, which highly reduces quality of life and response to therapy, and worsens prognosis, accounting for more than 25% of all cancer deaths. Cachexia represents an urgent medical need because, despite several molecular mechanisms have been identified, no effective therapy is currently available for this devastating syndrome. Most studies focus on skeletal muscle, which is indeed the main affected and clinically relevant organ, but cancer cachexia is characterized by a multiorgan failure. In this review, we focus on the current knowledge on the multiple tissues affected by cachexia and on the biomarkers with the attempt to define a chronological pathway, which might be useful for the early identification of patients who will undergo cachexia. Indeed, it is likely that the inefficiency of current therapies might be attributed, at least in part, to their administration in patients at the late stages of cachexia.

Effect of Bacterial Infection on Ghrelin Receptor Regulation in Periodontal Cells and Tissues

The effect of bacterial infection on the expression of growth hormone secretagogue receptor (GHS-R) was investigated in periodontal cells and tissues, and the actions of ghrelin were evaluated. GHS-R was assessed in periodontal tissues of rats with and without periodontitis. Human gingival fibroblasts (HGFs) were exposed to Fusobacterium nucleatum in the presence and absence of ghrelin. GHS-R expression was determined by real-time PCR and immunocytochemistry. Furthermore, wound healing, cell viability, proliferation, and migration were evaluated. GHS-R expression was significantly higher at periodontitis sites as compared to healthy sites in rat tissues. F. nucleatum significantly increased the GHS-R expression and protein level in HGFs. Moreover, ghrelin significantly abrogated the stimulatory effects of F. nucleatum on CCL2 and IL-6 expressions in HGFs and did not affect cell viability and proliferation significantly. Ghrelin stimulated while F. nucleatum decreased wound closure, probably due to reduced cell migration. Our results show original evidence that bacterial infection upregulates GHS-R in rat periodontal tissues and HGFs. Moreover, our study shows that ghrelin inhibited the proinflammatory actions of F. nucleatum on HGFs without interfering with cell viability and proliferation, suggesting that ghrelin and its receptor may act as a protective molecule during bacterial infection on periodontal cells.

Review of the Effects and Safety of Traditional Chinese Medicine in the Treatment of Cancer Cachexia

Cancer cachexia is characterized by weight loss, anorexia, asthenia, and anemia among cancer patients and can lead to their decreased physical function, poor quality of life, and reduced survival. Progestins have been reported to have beneficial effects on appetite improvement in patients with cancer; however, serious complications have been reported as a result of their use. Traditional Chinese medicine (TCM) is a complementary and alternative system of medicine that may be effective in treating cancer cachexia. This review aims to identify existing evidence on the efficacy and safety of traditional Chinese herbs and common TCM technologies in treating cancer cachexia. We searched six databases – the Cochrane Library, PubMed, EMBASE, CINAHL, China National Knowledge Infrastructure, and Wan Fang Database, using medical subject headings and free text. The search was performed in January 2021, and the reference lists of relevant articles were also searched. A total of 4685 citations were identified, and 20 studies were included. The results showed that traditional Chinese herbs can improve appetite, weight, biomarkers, the Karnofsky performance status, cachexia-related symptoms, and quality of life in patients with cancer cachexia. Some traditional Chinese herbs may have superiority in curative effects and safety, compared with progestins. Interestingly, acupuncture can improve appetite, nausea, constipation, and quality of life among patients with cancer cachexia but cannot increase body weight. However, high-quality evidence regarding the effect of TCM technologies in treating cancer cachexia is limited. It would be beneficial to explore the use of moxibustion and other TCM technologies in future studies.

Quality by Design Approach for the Development of Liposome Carrying Ghrelin for Intranasal Administration

The therapeutic use of peptides has increasingly recognized in the development of new therapies. However, the susceptible enzymatic cleavage is a barrier that needs to overcome. Nose-to-brain delivery associated with liposomes can protect peptides against biodegradation and improve the accessibility to brain targets. The aim was to develop a liposomal formulation as ghrelin carrier. The quality by design (QbD) approach was used as a strategy for method development. The initial risk assessments were carried out using a fishbone diagram. A screening design study was performed for the critical material attributes/critical process parameters (CMAs/CPPs) on critical quality attributes (CQAs). Liposomes were obtained by hydrating phospholipid films, followed by extrusion or homogenization, and coated with chitosan. The optimized liposome formulation was produced by high-pressure homogenization coated with chitosan, and the resulted were liposomes size 72.25 ± 1.46 nm, PDI of 0.300 ± 0.027, the zeta potential of 50.3 ± 1.46 mV, and encapsulation efficiency of 53.2%. Moreover, chitosan coating improved performance in ex vivo permeation and mucoadhesion analyzes when compared to the uncoated liposome. In this context, chitosan coating is essential for the performance of the formulations in the ex vivo permeation and mucoadhesion analyzes. The intranasal administration of ghrelin liposomes coated with chitosan offers an innovative opportunity to treat cachexia.

Diet-related interventions for cancer-associated cachexia

PURPOSE

Cancer-associated cachexia is a common condition in patients with advanced cancer, and is associated with extreme and involuntary weight loss and irreversible muscle wasting. Despite its high morbidity and mortality, there is no known treatment to reverse its effects. Thus, there is increasing interest in whether diet and exercise can assist in the minimization of cancer-associated cachexia.

METHODS

We reviewed the literature on the impact of dietary patterns, dietary components, and exercise on the progress and severity of cancer cachexia.

RESULTS

Although most studies have produced inconclusive or controversial findings, some promising studies using animal models and early human clinical trials suggest that dietary and physical therapy interventions may alleviate cancer-associated cachexia. Moreover, many studies suggest that controlling diet and exercise nevertheless improved the quality of life (QoL) for cancer patients with cachexia.

CONCLUSION

Ongoing studies will continue to examine whether different forms of multimodal therapy-combinations of cancer treatment, dietary regimens, anti-inflammatory therapy, and physical therapy-are effective methods to improve outcomes in advanced cancer patients with cachexia. Moreover, future studies should examine the effects of such interventions on long-term QoL and establish nutritional guidelines for the management of cancer-associated cachexia.

Needle Catheter Jejunostomy in Patients Undergoing Surgery for Upper Gastrointestinal and Pancreato-Biliary Cancer-Impact on Nutritional and Clinical Outcome in the Early and Late Postoperative Period

The metabolic risk for patients undergoing abdominal cancer resection increases in the perioperative period and malnutrition may be observed. In order to prevent further weight loss, the guidelines recommend for high-risk patients the placement of a needle catheter jejunostomy (NCJ) for supplementing enteral feeding in the early and late postoperative period. Our aim was to evaluate the safety of NCJ placement and its potential benefits regarding the nutritional status in the postoperative course. We retrospectively analyzed patients undergoing surgery for upper gastrointestinal cancer, such as esophageal, gastric, and pancreato-biliary cancer, and NCJ placement during the operation. The nutritional parameters body mass index (BMI), perioperative weight loss, phase angle measured by bioelectrical impedance analysis (BIA) and the clinical outcome were assessed perioperatively and during follow-up visits 1 to 3 months and 4 to 6 months after surgery. In 102 patients a NCJ was placed between January 2006 and December 2016. Follow-up visits 1 to 3 months and 4 to 6 months after surgery were performed in 90 patients and 88 patients, respectively. No severe complications were seen after the NCJ placement. The supplementing enteral nutrition via NCJ did not improve the nutritional status of the patients postoperatively. There was a significant postoperative decline of weight and phase angle, especially in the first to third month after surgery, which could be stabilized until 4-6 months after surgery. Placement of NCJ is safe. In patients with upper gastrointestinal and pancreato-biliary cancer, supplementing enteral nutrition during the postoperative course and continued after discharge may attenuate unavoidable weight loss and a reduction of body cell mass within the first six months.

Mazzola P, Souto EB, Chaud MV. Cachexia: Pathophysiology and Ghrelin Liposomes for Nose-to-Brain Delivery

Cachexia, a severe multifactorial condition that is underestimated and unrecognized in patients, is characterized by continuous muscle mass loss that leads to progressive functional impairment, while nutritional support cannot completely reverse this clinical condition. There is a strong need for more effective and targeted therapies for cachexia patients. There is a need for drugs that act on cachexia as a distinct and treatable condition to prevent or reverse excess catabolism and inflammation. Due to ghrelin properties, it has been studied in the cachexia and other treatments in a growing number of works. However, in the body, exogenous ghrelin is subject to very rapid degradation. In this context, the intranasal release of ghrelin-loaded liposomes to cross the blood-brain barrier and the release of the drug into the central nervous system may be a promising alternative to improve its bioavailability. The administration of nose-to-brain liposomes for the management of cachexia was addressed only in a limited number of published works. This review focuses on the discussion of the pathophysiology of cachexia, synthesis and physiological effects of ghrelin and the potential treatment of the diseased using ghrelin-loaded liposomes through the nose-to-brain route.

Asprosin is associated with anorexia and body fat mass in cancer patients

PURPOSE

Increasing evidence suggests that many adipokines are involved in cancer-related anorexia and cachexia syndrome (CACS), although the underlying mechanism remains to be clarify. Asprosin is a new peptide hormone mainly secreted by white adipose tissues that can increase appetite and body weight. In this cross-sectional study, we tested whether asprosin may intervene in the development of CACS.

METHODS

The fasting plasma asprosin levels were determined via enzyme-linked immune-sorbent assay. Anorexia was determined using the anorexia/cachexia subscale (A/CS) of the functional assessment of anorexia/cachexia therapy (FAACT) questionnaire. The body composition was assessed using bioelectrical impedance analysis. The association of plasma asprosin with anorexia, cachexia, and nutritional status was analyzed.

RESULTS

One hundred twenty treatment-naïve patients with pathological confirmed gastrointestinal or lung cancer and 14 mild gastritis patients were recruited. We found no significant difference in asprosin levels between subgroups of patients by age, sex, cancer types or stage. Correlation analysis suggested that asprosin levels were positively associated with body fat mass (r = 0.248, p = 0.043). No correlations were found between asprosin levels and hemoglobin, white blood cell count, blood platelet count, albumin, C-reactive protein, glucose, cholesterol, triglyceride, high density lipoprotein, low density lipoprotein, body mass index, body fat percentage, protein, skeletal muscle, muscle mass, lean body mass, and basal metabolic rate. Furthermore, asprosin levels were not significantly different between patients with or without cachexia. However, patients with anorexia had significantly lower asprosin levels compared with patients without anorexia. No significant difference in asprosin levels between gastritis and gastric cancer patients. Similarly, no significant change of asprosin levels occurred postoperatively in 10 gastric cancer patients.

CONCLUSIONS

Patients with anorexia had significantly lower asprosin levels compared with patients without anorexia. We therefore speculated that asprosin might intervene in the development of cancer anorexia and serve as a potential therapeutic target.

Attribution of Ghrelin to Cancer; Attempts to Unravel an Apparent Controversy

Ghrelin is an endogenous peptide hormone mainly produced in the stomach. It has been known to regulate energy homeostasis, stimulate secretion of growth hormone, and mediate many other physiologic effects. Various effects attributed to ghrelin contribute to many aspects of cancer development and progression. Accordingly, a large body of evidence has emerged about the association of ghrelin with several types of cancer in scales of cell-line, animal, and human studies. However, existing data are controversial. This controversy occurs in two main domains: one is the controversial results in local effects of ghrelin on different types of human cancer cell-lines; the second is the apparent disagreement in the results of in-vitro and clinical studies that investigated ghrelin association to one type of cancer. These inconsistencies have hampered the indications to consider ghrelin as a potential tumor biomarker or therapeutic agent in cancer patients. Previous studies have reviewed different parts of current literature about the ghrelin-cancer relationship. Although they have highlighted these controversial results in various ways, no specific recommendations have been given to address it. In this study, we comprehensively reviewed in-vitro, in-vivo, and clinical studies and attempted to use the following approaches to unravel the inconsistencies detected: (a) to distinguish local and systemic effects of ghrelin in interpreting its summary clinical role in each cancer; (b) scrutinizing factors that regulate local effects of ghrelin and could justify different effects of ghrelin on different cancer cell-lines. These approaches could have notable implications for future in-vitro and clinical studies.

Molecular therapeutic strategies targeting pancreatic cancer induced cachexia

Pancreatic cancer (PC) induced cachexia is a complex metabolic syndrome associated with significantly increased morbidity and mortality and reduced quality of life. The pathophysiology of cachexia is complex and poorly understood. Many molecular signaling pathways are involved in PC and cachexia. Though our understanding of cancer cachexia is growing, therapeutic options remain limited. Thus, further discovery and investigation of the molecular signaling pathways involved in the pathophysiology of cachexia can be applied to development of targeted therapies. This review focuses on three main pathophysiologic processes implicated in the development and progression of cachexia in PC, as well as their utility in the discovery of novel targeted therapies.

Skeletal muscle wasting is the most prominent pathophysiologic anomaly in cachectic patients and driven by multiple regulatory pathways. Several known molecular pathways that mediate muscle wasting and cachexia include transforming growth factor-beta (TGF-β), myostatin and activin, IGF-1/PI3K/AKT, and JAK-STAT signaling. TGF-β antagonism in cachectic mice reduces skeletal muscle catabolism and weight loss, while improving overall survival. Myostatin/activin inhibition has a great therapeutic potential since it plays an essential role in skeletal muscle regulation. Overexpression of insulin-like growth factor binding protein-3 (IGFBP-3) leads to increased ubiquitination associated proteolysis, inhibition of myogenesis, and decreased muscle mass in PC induced cachexia. IGFBP-3 antagonism alleviates muscle cell wasting.

Another component of cachexia is profound systemic inflammation driven by pro-cachectic cytokines such as interleukin-6 (IL-6), tumor necrosis factor-alpha (TNF-α), and interferon gamma (INF-γ). IL-6 antagonism has been shown to reduce inflammation, reduce skeletal muscle loss, and ameliorate cachexia. While TNF-α inhibitors are clinically available, blocking TNF-α signaling is not effective in the treatment of cancer cachexia. Blocking the synthesis or action of acute phase reactants and cytokines is a feasible therapeutic strategy, but no anti-cytokine therapies are currently approved for use in PC. Metabolic alterations such as increased energy expenditure and gluconeogenesis, insulin resistance, fat tissue browning, excessive oxidative stress, and proteolysis with amino acid mobilization support tumor growth and the development of cachexia. Current innovative nutritional strategies for cachexia management include ketogenic diet, utilization of natural compounds such as silibinin, and supplementation with ω3-polyunsaturated fatty acids. Elevated ketone bodies exhibit an anticancer and anticachectic effect. Silibinin has been shown to inhibit growth of PC cells, induce metabolic alterations, and reduce myofiber degradation. Consumption of ω3-polyunsaturated fatty acids has been shown to significantly decrease resting energy expenditure and regulate metabolic dysfunction.