The coordinated action of VCP/p97 and GCN2 regulates cancer cell metabolism and proteostasis during nutrient limitation

VCP/p97 regulates numerous cellular functions by mediating protein degradation through its segregase activity. Its key role in governing protein homoeostasis has made VCP/p97 an appealing anticancer drug target. Here, we provide evidence that VCP/p97 acts as a regulator of cellular metabolism. We found that VCP/p97 was tied to multiple metabolic processes on the gene expression level in a diverse range of cancer cell lines and in patient-derived multiple myeloma cells. Cellular VCP/p97 dependency to maintain proteostasis was increased under conditions of glucose and glutamine limitation in a range of cancer cell lines from different tissues. Moreover, glutamine depletion led to increased VCP/p97 expression, whereas VCP/p97 inhibition perturbed metabolic processes and intracellular amino acid turnover. GCN2, an amino acid-sensing kinase, attenuated stress signalling and cell death triggered by VCP/p97 inhibition and nutrient shortages and modulated ERK activation, autophagy, and glycolytic metabolite turnover. Together, our data point to an interconnected role of VCP/p97 and GCN2 in maintaining cancer cell metabolic and protein homoeostasis

Attitude of Health-Care Workers to HIV/AIDS

The current 5% prevalence rate of HIV in Nigeria represents a significant population of people living with HIV/AIDS (PLWHA). Discrimination against PLWHA has profound impact on the care and support required fro their optimal management particularly in resource-constrained settings. The study sought to assess the knowledge of health-care providers about HIV/AIDS, determine the potential for discrimination in the provision of services based on patients\' HIV sero-status and review the factors that may contribute to such attitude. Self administered semi-structured questionnaires were administered to respondents who were selected by multi-stage sampling technique. The questionnaires explored the respondents\' knowledge about HIV and their attitude and practice regarding PLWHA. Three hundred and forty-five questionnaires were completed. Only 77.1% correctly identified breastfeeding as a source of HIV transmission; 5.2% and 26% respectively thought transmission was possible through mosquito bite and handshake. About 10% and 15% respectively among trained nurses and auxiliary nurses were unaware that HIV could be transmitted to the child during delivery. Some 13.9% and 12.7% of respondents respectively were unwilling to take vital signs and carry out physical examination on PLWHA. Compared to physicians, trained nurses and auxiliary nurses were more likely to deny services based on HIV ero-status. Negative attitude was more likely if the source of the HIV infection was from homosexual exposure or bisexual indiscretion. The health-care workers studied manifested certain attitudes that are potentially discriminatory of PLWHA well-coordinated continuing education of HIV/AIDS for all categories of health-care workers is recommended as a vital strategy in the crusade against the epidemic. African Journal of Reproductive Health Vol. 10 (1) 2006: pp. 39-4

Systems level profiling of chemotherapy-induced stress resolution in cancer cells reveals druggable trade-offs

Cancer cells can survive chemotherapy-induced stress, but how they recover from it is not known. Using a temporal multiomics approach, we delineate the global mechanisms of proteotoxic stress resolution in multiple myeloma cells recovering from proteasome inhibition. Our observations define layered and protracted programs for stress resolution that encompass extensive changes across the transcriptome, proteome, and metabolome. Cellular recovery from proteasome inhibition involved protracted and dynamic changes of glucose and lipid metabolism and suppression of mitochondrial function. We demonstrate that recovering cells are more vulnerable to specific insults than acutely stressed cells and identify the general control nonderepressable 2 (GCN2)-driven cellular response to amino acid scarcity as a key recovery-associated vulnerability. Using a transcriptome analysis pipeline, we further show that GCN2 is also a stress-independent bona fide target in transcriptional signature-defined subsets of solid cancers that share molecular characteristics. Thus, identifying cellular trade-offs tied to the resolution of chemotherapy-induced stress in tumor cells may reveal new therapeutic targets and routes for cancer therapy optimization

Systems level profiling of chemotherapy-induced stress resolution in cancer cells reveals druggable trade-offs

Cancer cells can survive chemotherapy-induced stress, but how they recover from it is not known. Using a temporal multiomics approach, we delineate the global mechanisms of proteotoxic stress resolution in multiple myeloma cells recovering from proteasome inhibition. Our observations define layered and protracted programmes for stress resolution that encompass extensive changes across the transcriptome, proteome, and metabolome. Cellular recovery from proteasome inhibition involved protracted and dynamic changes of glucose and lipid metabolism and suppression of mitochondrial function. We demonstrate that recovering cells are more vulnerable to specific insults than acutely stressed cells and identify the general control nonderepressable 2 (GCN2)-driven cellular response to amino acid scarcity as a key recovery-associated vulnerability. Using a transcriptome analysis pipeline, we further show that GCN2 is also a stress-independent bona fide target in transcriptional signature-defined subsets of solid cancers that share molecular characteristics. Thus, identifying cellular trade-offs tied to the resolution of chemotherapy-induced stress in tumour cells may reveal new therapeutic targets and routes for cancer therapy optimisation

The coordinated action of VCP/p97 and GCN2 regulates cancer cell metabolism and proteostasis during nutrient limitation

VCP/p97 regulates numerous cellular functions by mediating protein degradation through its segregase activity. Its key role in governing protein homoeostasis has made VCP/p97 an appealing anticancer drug target. Here, we provide evidence that VCP/p97 acts as a regulator of cellular metabolism. We found that VCP/p97 was tied to multiple metabolic processes on the gene expression level in a diverse range of cancer cell lines and in patient-derived multiple myeloma cells. Cellular VCP/p97 dependency to maintain proteostasis was increased under conditions of glucose and glutamine limitation in a range of cancer cell lines from different tissues. Moreover, glutamine depletion led to increased VCP/p97 expression, whereas VCP/p97 inhibition perturbed metabolic processes and intracellular amino acid turnover. GCN2, an amino acid-sensing kinase, attenuated stress signalling and cell death triggered by VCP/p97 inhibition and nutrient shortages and modulated ERK activation, autophagy, and glycolytic metabolite turnover. Together, our data point to an interconnected role of VCP/p97 and GCN2 in maintaining cancer cell metabolic and protein homoeostasis