Controlling the incorporation of fluorinated amino acids in human cells and its structural impact.

Fluorinated aromatic amino acids (FAAs) are promising tools when studying protein structure and dynamics by NMR spectroscopy. The incorporation FAAs in mammalian expression systems has been introduced only recently. Here, we investigate the effects of FAAs incorporation in proteins expressed in human cells, focusing on the probability of incorporation and its consequences on the 19 F NMR spectra. By combining 19 F NMR, direct MS and x-ray crystallography, we demonstrate that the probability of FAA incorporation is only a function of the FAA concentration in the expression medium and is a pure stochastic phenomenon. In contrast with the MS data, the x-ray structures of carbonic anhydrase II reveal that while the 3D structure is not affected, certain positions lack fluorine, suggesting that crystallization selectively excludes protein molecules featuring subtle conformational modifications. This study offers a predictive model of the FAA incorporation efficiency and provides a framework for controlling protein fluorination in mammalian expression systems.

Direct Expression of Fluorinated Proteins in Human Cells for 19F In-Cell NMR Spectroscopy.

In-cell NMR spectroscopy is a powerful approach to study protein structure and function in the native cellular environment. It provides precious insights into the folding, maturation, interactions, and ligand binding of important pharmacological targets directly in human cells. However, its widespread application is hampered by the fact that soluble globular proteins often interact with large cellular components, causing severe line broadening in conventional heteronuclear NMR experiments. 19F NMR can overcome this issue, as fluorine atoms incorporated in proteins can be detected by simple background-free 1D NMR spectra. Here, we show that fluorinated amino acids can be easily incorporated in proteins expressed in human cells by employing a medium switch strategy. This straightforward approach allows the incorporation of different fluorinated amino acids in the protein of interest, reaching fluorination efficiencies up to 60%, as confirmed by mass spectrometry and X-ray crystallography. The versatility of the approach is shown by performing 19F in-cell NMR on several proteins, including those that would otherwise be invisible by 1H-15N in-cell NMR. We apply the approach to observe the interaction between an intracellular target, carbonic anhydrase 2, and its inhibitors, and to investigate how the formation of a complex between superoxide dismutase 1 and its chaperone CCS modulates the interaction of the chaperone subunit with the cellular environment.

[Relationship between dynamic changes of psychological distress and quality of life in Chinese early breast cancer patients].

Objective: To explore the dynamic changes of Distress Thermometer scores and the relationship between psychological distress and quality of life in Chinese early breast cancer patients during chemotherapy. Methods: This prospective study enrolled 110 Chinese postoperative early breast cancer patients between March 2019 and December 2019. The psychological distress and quality of life (QOL) of patients were assessed by using the psychological distress management screening tool and the patient quality of life scale. Logistic regression model was used to analyze the influencing factors of psychological distress degree. The correlation between distress thermometer (DT) score changes and quality of life was analyzed by Pearson correlation analysis. Results: In total, 96 valid cases were analyzed. Before chemotherapy, 47 cases (49.0%) had DT score ≥4 points. After 2 cycles of chemotherapy, 40 cases (41.7%) had DT score ≥4 points. Thirty-four patients (35.4%) had DT score ≥4 points after chemotherapy. The DT score after chemotherapy was lower than that before chemotherapy and after 2 cycles of chemotherapy. Univariate analysis showed that income level and pathological stage were still significant related to the detection of DT score ≥4 points after chemotherapy (P<0.05). The changes of DT scores before and after chemotherapy were negatively correlated with the changes of quality of life ( r=-0.298, P=0.003). Conclusions: The detection rate of psychological distress in patients with early breast cancer during chemotherapy showed a decreasing trend. Income level and tumor stage are significant factors affecting the psychological distress of patients. There is a significant correlation between the psychological distress and the quality of life during chemotherapy. We should pay attention to the evaluation and monitoring state of psychological distress of patients during chemotherapy.

The current landscape of immunotherapy for pediatric brain tumors.

Pediatric central nervous system tumors are the most common solid malignancies in childhood, and aggressive therapy often leads to long-term sequelae in survivors, making these tumors challenging to treat. Immunotherapy has revolutionized prospects for many cancer types in adults, but the intrinsic complexity of treating pediatric patients and the scarcity of clinical studies of children to inform effective approaches have hampered the development of effective immunotherapies in pediatric settings. Here, we review recent advances and ongoing challenges in pediatric brain cancer immunotherapy, as well as considerations for efficient clinical translation of efficacious immunotherapies into pediatric settings.

[Effect of lipopolysaccharide-stimulated exosomes from human dental pulp stem cells combined with stromal cell-derived factor-1 on dental pulp regeneration].

Objective: To investigate the effect of exosomes from mild-inflammation- stimulated human dental pulp stem cells (hDPSC) combined with stromal cell-derived factor-1 (SDF-1) on dental pulp regeneration in rats. Methods: Primary hDPSCs were isolated, cultured and then stimulated by using lipopolysaccharide (LPS). The exosomes from the hDPSCs with (L-EXO) or without (N-EXO) LPS were extracted by overspeed differential centrifugation and were identified by transmission electron microscopy and Western blotting. Forty SD rats, aged 6-8 weeks, were equally divided into S group (SDF-1 alone), L+S group (L-EXO combined with SDF-1), N+S group (N-EXO combined with SDF-1) and blank control group (no substance implanted into the root canal) by random number table method. Bilateral mandibular first molars were used as the experimental teeth to establish pulpless root canal models and different contents were implanted into the root canals according to the groups. All rats were over-anesthetized and sacrificed at the 30th day after content implantation. Bilateral mandibular tissues were taken for histological evaluation by means of HE, Masson and immunohistochemical stainings. Results: The HE staining showed new pulp-like tissue in the root canals of all three experimental groups. The amount of new tissues and the number of cells in the tissues were greatest in L+S group and least in S group. Masson staining showed that the mineralized tissue in L+S group was arranged longitudinally along the root canal wall and the collagen fibers were arranged in an orderly fashion, while those in N+S group showed an irregular and disordered distribution. Quantitative analysis of the area of neovascularization in each group showed that the density of vessels in the L+S group [(2.03±0.65)%] was significantly higher than that in the S group [(0.65±0.05)%] and the N+S group [(1.06±0.38)%] respectively (F=5.879, P<0.05). Immunohistochemical staining showed that the expression of CXC chemokine receptor 4 (CXCR4) was significantly lower in S and L+S groups than in N+S group, with a statistically significant difference (F=8.633, P<0.01). Conclusions: Exosomes secreted by hDPSCs combined with SDF-1 might increase the amount of new tissue in the root canal and the density of blood vessels in the tissue. L-EXO showed a stronger effect than N-EXO did. The combination of L-EXO with SDF-1 might result in more regular arrangement of mineralized tissue and collagen fibers in the regenerative tissues.

Unfolding spatiotemporal dynamics through symmetry reduction based on orbit topology.

Understanding key patterns in a spatially extended system is an essential task of modern physics of complex systems. Just like in low-dimensional nonlinear systems, here we show that orbit topology plays a critical role even for the investigation of spatiotemporal dynamics. First, we design a new scheme to reduce possible continuous symmetries that are prevailing in these systems based on topological consideration. The scheme is successfully demonstrated in the well-known pattern formation systems. Interesting bifurcation routes to chaos are conveniently revealed after symmetry reduction. In particular, we find that near the onset of turbulent dynamics, with an increase of instability, local phase chaos with the same spatial topological index may merge into more complex ones, while those with different indices induce defect chaos necessarily through connections docked with defects. The topological argument is so strong that the scenario presented here should be omnipresent in diverse systems.

Tracking adoptive T cell immunotherapy using magnetic particle imaging.

Adoptive cellular therapy (ACT) is a potent strategy to boost the immune response against cancer. ACT is effective against blood cancers but faces challenges in treating solid tumors. A critical step for the success of ACT immunotherapy is to achieve efficient trafficking and persistence of T cells to solid tumors. Non-invasive tracking of the accumulation of adoptively transferred T cells to tumors would greatly accelerate development of more effective ACT strategies. We demonstrate the use of magnetic particle imaging (MPI) to non-invasively track ACT T cells in vivo in a mouse model of brain cancer. Magnetic labeling did not impair primary tumor-specific T cells in vitro, and MPI allowed the detection of labeled T cells in the brain after intravenous or intracerebroventricular administration. These results support the use of MPI to track adoptively transferred T cells and accelerate the development of ACT treatments for brain tumors and other cancers.

HDAC6 Signaling at Primary Cilia Promotes Proliferation and Restricts Differentiation of Glioma Cells.

Histone deacetylase 6 (HDAC6) is an emerging therapeutic target that is overexpressed in glioblastoma when compared to other HDACs. HDAC6 catalyzes the deacetylation of alpha-tubulin and mediates the disassembly of primary cilia, a process required for cell cycle progression. HDAC6 inhibition disrupts glioma proliferation, but whether this effect is dependent on tumor cell primary cilia is unknown. We found that HDAC6 inhibitors ACY-1215 (1215) and ACY-738 (738) inhibited the proliferation of multiple patient-derived and mouse glioma cells. While both inhibitors triggered rapid increases in acetylated alpha-tubulin (aaTub) in the cytosol and led to increased frequencies of primary cilia, they unexpectedly reduced the levels of aaTub in the cilia. To test whether the antiproliferative effects of HDAC6 inhibitors are dependent on tumor cell cilia, we generated patient-derived glioma lines devoid of cilia through depletion of ciliogenesis genes ARL13B or KIF3A. At low concentrations, 1215 or 738 did not decrease the proliferation of cilia-depleted cells. Moreover, the differentiation of glioma cells that was induced by HDAC6 inhibition did not occur after the inhibition of cilia formation. These data suggest HDAC6 signaling at primary cilia promotes the proliferation of glioma cells by restricting their ability to differentiate. Surprisingly, overexpressing HDAC6 did not reduce cilia length or the frequency of ciliated glioma cells, suggesting other factors are required to control HDAC6-mediated cilia disassembly in glioma cells. Collectively, our findings suggest that HDAC6 promotes the proliferation of glioma cells through primary cilia.

Adult precision medicine: learning from the past to enhance the future.

Despite therapeutic advances for other malignancies, gliomas remain challenging solid tumors to treat. Complete surgical resection is nearly impossible due to gliomas' diffuse infiltrative nature, and treatment is hampered by restricted access to the tumors due to limited transport across the blood-brain barrier. Recent advances in genomic studies and next-generation sequencing techniques have led to a better understanding of gliomas and identification of potential aberrant signaling pathways. Targeting the specific genomic abnormalities via novel molecular therapies has opened a new avenue in the management of gliomas, with encouraging results in preclinical studies and early clinical trials. However, molecular characterization of gliomas revealed significant heterogeneity, which poses a challenge for targeted therapeutic approaches. In this context, leading neuro-oncology researchers and clinicians, industry innovators, and patient advocates convened at the inaugural annual Remission Summit held in Orlando, FL in February 2019 to discuss the latest advances in immunotherapy and precision medicine approaches for the treatment of adult and pediatric brain tumors and outline the unanswered questions, challenges, and opportunities that lay ahead for advancing the duration and quality of life for patients with brain tumors. Here, we provide historical context for precision medicine in other cancers, present emerging approaches for gliomas, discuss their limitations, and outline the steps necessary for future success. We focus on the advances in small molecule targeted therapy, as the use of immunotherapy as an emerging precision medicine modality for glioma treatment has recently been reviewed by our colleagues.

Structural basis for inhibition of an archaeal CRISPR-Cas type I-D large subunit by an anti-CRISPR protein.

A hallmark of type I CRISPR-Cas systems is the presence of Cas3, which contains both the nuclease and helicase activities required for DNA cleavage during interference. In subtype I-D systems, however, the histidine-aspartate (HD) nuclease domain is encoded as part of a Cas10-like large effector complex subunit and the helicase activity in a separate Cas3' subunit, but the functional and mechanistic consequences of this organisation are not currently understood. Here we show that the Sulfolobus islandicus type I-D Cas10d large subunit exhibits an unusual domain architecture consisting of a Cas3-like HD nuclease domain fused to a degenerate polymerase fold and a C-terminal domain structurally similar to Cas11. Crystal structures of Cas10d both in isolation and bound to S. islandicus rod-shaped virus 3 AcrID1 reveal that the anti-CRISPR protein sequesters the large subunit in a non-functional state unable to form a cleavage-competent effector complex. The architecture of Cas10d suggests that the type I-D effector complex is similar to those found in type III CRISPR-Cas systems and that this feature is specifically exploited by phages for anti-CRISPR defence.

Biological Characteristics and Genetic Diversity of Phomopsis asparagi, Causal Agent of Asparagus Stem Blight.

Asparagus stem blight is a regional disease. In the present study, we compared strains of Phomopsis asparagi from six different provinces to determine their biological characteristics and genetic diversity, differences in the pycnidium and conidium production, pathogenicity, and growth rate. Considerable differences were established in the pycnidium and conidium production among the P. asparagi strains from the six studied provinces. The largest pycnidium and conidium production had the strains from Fujian, followed by those from Hainan. The virulence of P. asparagi strains was significantly different but without a correlation with the geographical source of the strain. FJ2 had the highest virulence, followed by HN2, SD4, and SD5, whereas SD5 had the lowest virulence. The colony diameter and dry weight of the strains of asparagus stem blight fungus from the six provinces were substantially different. The colonies of HN1-5 had the largest diameters, whereas those of XT1-5, LT1-3, FJ1-5, and SX6 had smaller diameters. Four primers with good repeatability and strong specificity were selected from 100 intersimple sequence repeat (ISSR) primers. ISSR-PCR amplification was performed on 36 strains of asparagus stem blight fungus, and a large number of repeatable DNA fingerprints were obtained. Most of the amplified fragments were within 300 to 500 bp. In all, 69 total points, 64 multiple points, and 92.75% polymorphism points were established. The number of ISSR gene sites detected by four primers ranged from 14 to 20, with an average of 16 multiple sites. The copolymerization was divided into three groups: XT1-5, LT1-3, and FJ1-5, which were clustered into the first group; SD1-6, SX1-6, and HB1-6, clustered into the second group; and HN1-5 in the third group. The results of the cluster analysis revealed that the strains of the neighboring provinces had a nearer phylogenetic relationship than that between distant ones. Therefore, the system evolution of P. asparagi is related to the geographical distribution of its strains.

RNA-electroporated T cells for cancer immunotherapy.

Adoptive T cell therapy has proven effective against hematologic malignancies and demonstrated efficacy against a variety of solid tumors in preclinical studies and clinical trials. Nonetheless, antitumor responses against solid tumors remain modest, highlighting the need to enhance the effectiveness of this therapy. Genetic modification of T cells with RNA has been explored to enhance T-cell antigen specificity, effector function, and migration to tumor sites, thereby potentiating antitumor immunity. This review describes the rationale for RNA-electroporated T cell modifications and provides an overview of their applications in preclinical and clinical investigations for the treatment of hematologic malignancies and solid tumors.

[The effect of ovarian function suppression on the psychological status of breast cancer patients under 35 years old in China].

Objective: To explore whether the addition of ovarian function suppression in endocrine therapy of Chinese breast cancer patients under 35 years old will affect the psychological state. Methods: This cross-sectional study enrolled 91 Chinese postoperative breast cancer patients aged 35 years or younger. The depression and anxiety state of patients were assessed by Patient Health Questionnaire-9 (PHQ-9) and General Anxiety Disorder-7 (GAD-7), and their sociodemographic characteristics were collected. Results: Among the 91 patients, 61 were receiving ovarian function suppression (OFS) treatment, 30 were not. Among the 30 patients with out OFS treatment, 2 had PHQ-9 score ≥8, 28 had PHQ-9 score < 8, 1 had GAD-7 score ≥10, and 29 had GAD-7 score < 10. Among the 61 patients with OFS, 19 had PHQ-9 score ≥8, 42 had PHQ-9 score < 8, 8 had GAD-7 score ≥10, and 53 had GAD-7 score <10. The incidence of depression was 6.7% and 31.1% in the non-OFS group and OFS group, respectively (P=0.018). The incidence of anxiety in the two groups was 3.3% and 13.1%, respectively (P=0.174). Univariate analysis showed that the incidence of depression was significantly higher in patients with OFS (P=0.018). After taking into account the sociodemographic factors, pathological stage and treatment of the patients, multivariate analysis showed that the administration of OFS was still significantly related to the incidence of depression (OR=9.14, 95% CI=1.52~55.16, P=0.016). There was no significant difference in the incidence of anxiety (P=0.174). Conclusions: For Chinese young breast cancer patients under 35 years old, the use of OFS in the adjuvant endocrine therapy may lead to a significant increase in the incidence of depression. We should pay attention to the evaluation and monitoring of the psychological state of this population.

Structure and Function of the Bacterial Protein Toxin Phenomycin.

Phenomycin is a bacterial mini-protein of 89 amino acids discovered more than 50 years ago with toxicity in the nanomolar regime toward mammalian cells. The protein inhibits the function of the eukaryotic ribosome in cell-free systems and appears to target translation initiation. Several fundamental questions concerning the cellular activity of phenomycin, however, have remained unanswered. In this paper, we have used morphological profiling to show that direct inhibition of translation underlies the toxicity of phenomycin in cells. We have performed studies of the cellular uptake mechanism of phenomycin, showing that endosomal escape is the toxicity-limiting step, and we have solved a solution phase high-resolution structure of the protein using NMR spectroscopy. Through bioinformatic as well as functional comparisons between phenomycin and two homologs, we have identified a peptide segment, which constitutes one of two loops in the structure that is critical for the toxicity of phenomycin.

Otorhinolaryngology Out-Patient Practice in the “Post”-COVID-19 Era: Ensuring a Balance Between Service and Safety

Objective@#To review available resources and provide evidence-based recommendations that may optimize otorhinolaryngologic out-patient health care delivery in the “post”-COVID-19 era while ensuring the safety of our patients, healthcare workers and staff.@*Data Sources@#Relevant peer-reviewed journal articles; task force, organizational and institutional, government and non-government organization recommendations; published guidelines from medical, health-related, and scientific organizations.@*Methods@#A comprehensive review of the literature on the COVID-19 pandemic as it pertained to “post”-COVID 19 out-patient otorhinolaryngologic practice was obtained from peer-reviewed articles, guidelines, recommendations, and statements that were identified through a structured search of the data sources for relevant literature utilizing MEDLINE (through PubMed and PubMed Central PMC), Google (and Google Scholar), HERDIN Plus, the World Health Organization (WHO) Global Health Library, and grey literature including social media (blogs, Twitter, LinkedIn, Facebook). In-patient management (including ORL surgical procedures such as tracheostomy) were excluded. Retrieved material was critically appraised and organized according to five discussion themes: physical office set-up, patient processing, personal protection, procedures, and prevention and health-promotion.@*Conclusion@#These recommendations are consistent with the best available evidence to date, and are globally acceptable while being locally applicable. They address the concerns of otorhinolaryngologists and related specialists about resuming office practice during the “post”-COVID-19 period when strict quarantines are gradually lifted and a transition to the “new” normal is made despite the unavailability of a specific vaccine for SARS-CoV-2. While they target practice settings in the Philippines, they should be useful to ENT (ear, nose & throat) surgeons in other countries in ensuring a balance between service and safety as we continue to serve our patients during these challenging times.

[The clinical reports on adrenal insufficiency of patients with advanced solid tumors accepting anti-PD-1 antibody, SHR-1210 therapy].

Objective: To investigate the adrenocortical function changes of patients with advanced solid tumors who received the anti- programmed cell death protein-1 (PD-1) antibody, SHR-1210 therapy. Methods: The clinical data of 98 patients with advanced solid tumors who were enrolled in a prospective phase I trial of SHR-1210 therapy at our institution between April 27, 2016 and June 8, 2017 were collected. The levels of plasma adrenocorticotropic hormone (ACTH) and cortisol were evaluated in 96 patients. The clinical manifestations, laboratory tests and radiologic data were collected to define the immune-related adrenal insufficiency. Results: Until December 14th, 2018, no SHR-1210 related primary adrenal insufficiency occurred, and the incidence of immune-related secondary adrenal insufficiency was 1.0% among the 96 patients, which was identified as grade 2. No patient developed grade 3-4 adrenal insufficiency. The main clinical manifestations of the patient who was diagnosed as secondary adrenal insufficiency were grade 2 fatigue, anorexia and headache.The patient developed fatigue and anorexia at the 267th day after receiving the first dose of SHR-1210, the hypocortisolism occurred on the 279th day, and the headache emerged on the 291th day. The anorexia of patient who treated by physiological replacement doses of glucocorticoid since the 457th day was attenuated.The patient whose cortisol level was still below the normal limit continued to accept the hormone replacement therapy up to 776 days after the initial administration of SHR-1210. Conclusions: The incidence of SHR-1210 related adrenal insufficiency of patients with advanced solid tumors is low, and the symptoms can be effectively ameliorated by hormone replacement therapy. The potential adverse outcome of adrenal insufficiency following immunotherapy should be noticed by clinicians to avoid the occurrence of adrenal crisis.

[Clinical observation of thyroid-related adverse events induced by anti-PD-1 antibody SHR-1210 in patients with advanced solid tumor].

Objective: To assess the incidence and characteristics of thyroid dysfunction during anti-Programmed cell death 1 receptor (PD-1) antibody SHR-1210 therapy in patients with advanced solid tumor. Methods: The medical records of 98 patients who initiated SHR-1210 treatment between April 27, 2016 and June 8, 2017 in the phase 1 trial to evaluate the safety, efficacy, and pharmacokinetics of SHR-1210 in patients with advanced solid tumors were retrospectively reviewed. Serological tests of thyroid stimulating hormone (TSH) and free thyroxine (fT4) were measured at baseline and prior to each SHR-1210 administration. Results: A total of 86 patients had normal thyroid function before the first dose of SHR-1210 treatment. Nine out of 86 (10.5%) patients developed new onset hypothyroidism from euthyroid state. 12 patients presented thyroid dysfunction at baseline, 10 of whom were subclinical hypothyroid and 2 were hypothyroidism. Four out of 10 patients developed hypothyroidism from subclinical hypothyroid. Most patients with hypothyroidism were asymptomatic. Thyroid dysfunction occurred early (median, 55days) after the initiation of SHR-1210. The severity of hypothyroidism were all grade 1-2. No grade 3-4 hypothyroidism occurred. No patients discontinue the treatment of SHR-1210 due to clinical impact of the thyroid dysfunctions. Conclusions: Thyroid-related adverse events were common during anti-PD-1 antibody SHR-1210 treatment . The incidence of hypothyroidism is lower in patients with euthyroid state than in patients with thyroid dysfunction at baseline during SHR-1210 treatment . Thyroid function can be improved after thyroid hormone replacement. During SHR-1210 treatment, it is necessary to pay attention to monitor the thyroid function, especially in the patients with thyroid dysfunction at baseline. Trial registration: Chinese Clinical Trial Registry, 2016L01455.

Glioma cell proliferation is enhanced in the presence of tumor-derived cilia vesicles.

BACKGROUND: The mechanisms by which primary cilia affect glioma pathogenesis are unclear. Depending on the glioma cell line, primary cilia can promote or inhibit tumor development. Here, we used piggyBac-mediated transgenesis to generate patient-derived glioblastoma (GBM) cell lines that stably express Arl13b:GFP in their cilia. This allowed us to visualize and analyze the behavior of cilia and ciliated cells during live GBM cell proliferation. RESULTS: Time-lapse imaging of Arl13b:GFP+ cilia revealed their dynamic behaviors, including distal tip excision into the extracellular milieu. Recent studies of non-cancerous cells indicate that this process occurs during the G0 phase, prior to cilia resorption and cell cycle re-entry, and requires ciliary recruitment of F-actin and actin regulators. Similarly, we observed ciliary buds associated with Ki67- cells as well as scattered F-actin+ cilia, suggesting that quiescent GBM cells may also utilize an actin network-based mechanism for ciliary tip excision. Notably, we found that the proliferation of ciliated GBM cells was promoted by exposing them to conditioned media obtained from ciliated cell cultures when compared to conditioned media collected from cilia-defective cell cultures (depleted in either KIF3A or IFT88 using CRISPR/Cas9). These results suggest that GBM cilia may release mitogenic vesicles carrying factors that promote tumor cell proliferation. Although Arl13b is implicated in tumor growth, our data suggest that Arl13b released from GBM cilia does not mediate tumor cell proliferation. CONCLUSION: Collectively, our results indicate that ciliary vesicles may represent a novel mode of intercellular communication within tumors that contributes to GBM pathogenesis. The mitogenic capacity of GBM ciliary vesicles and the molecular mediators of this phenomenon requires further investigation.

Infiltrative and drug-resistant slow-cycling cells support metabolic heterogeneity in glioblastoma.

Metabolic reprogramming has been described in rapidly growing tumors, which are thought to mostly contain fast-cycling cells (FCCs) that have impaired mitochondrial function and rely on aerobic glycolysis. Here, we characterize the metabolic landscape of glioblastoma (GBM) and explore metabolic specificities as targetable vulnerabilities. Our studies highlight the metabolic heterogeneity in GBM, in which FCCs harness aerobic glycolysis, and slow-cycling cells (SCCs) preferentially utilize mitochondrial oxidative phosphorylation for their functions. SCCs display enhanced invasion and chemoresistance, suggesting their important role in tumor recurrence. SCCs also demonstrate increased lipid contents that are specifically metabolized under glucose-deprived conditions. Fatty acid transport in SCCs is targetable by pharmacological inhibition or genomic deletion of FABP7, both of which sensitize SCCs to metabolic stress. Furthermore, FABP7 inhibition, whether alone or in combination with glycolysis inhibition, leads to overall increased survival. Our studies reveal the existence of GBM cell subpopulations with distinct metabolic requirements and suggest that FABP7 is central to lipid metabolism in SCCs and that targeting FABP7-related metabolic pathways is a viable therapeutic strategy.

Immunotherapy for Brain Tumors.

OPINION STATEMENT: Despite aggressive surgery, radiation, and systemic chemotherapy, the prognosis for patients diagnosed with malignant brain tumors remains extremely poor, and standard treatments carry significant risks for long-term neurocognitive deficits. There is a clear and urgent need for the development of more effective treatments that will add minimal toxicity to standard therapies for invasive brain cancers. Cancer immunotherapy is a treatment modality that holds promise for the delivery of tumor-specific cytotoxicity, with the potential to eliminate brain tumor cells without harming the eloquent brain.