HAP1 loss confers l-asparaginase resistance in ALL by downregulating the calpain-1-Bid-caspase-3/12 pathway

Lee, Jung Kwon; Kang, SungMyung; Wang, Xidi; Rosales, Jesusa L.; Gao, Xu; Byun, Hee‐Guk; Jin, Yan; Fu, Songbin; Wang, Jinghua; Lee, Ki-Young

doi:10.1182/blood-2018-12-890236

Cited by 34 publications

(39 citation statements)

References 40 publications

(50 reference statements)

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“…Instead, it is possible that L‐ASP might induce metabolic alterations or instill other molecular changes that induce resistance to this protocol. Resistance to L‐ASP in human ALL can be induced by loss of huntingtin‐associated protein 1 . Huntingtin‐associated protein 1 interacts with other proteins to form a complex that mediates Ca 2+ release from the endoplasmic reticulum and through other mechanisms can decrease entry of external Ca 2+ into the cell.…”

Section: Discussionmentioning

confidence: 99%

Concurrent use of rabacfosadine and L‐asparaginase for relapsed or refractory multicentric lymphoma in dogs

Cawley

Wright

Meleo³

et al. 2020

Veterinary Internal Medicne

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Background Rabacfosadine (RAB), a novel antineoplastic agent conditionally licensed for the treatment of lymphoma in dogs, is efficacious in both naïve and previously treated dogs. Its use in combination with L‐asparaginase (L‐ASP) has not been studied. Hypothesis/Objectives To evaluate the safety and efficacy of L‐ASP given concurrently with RAB in dogs with relapsed multicentric lymphoma. Animals Fifty‐two dogs with relapse of lymphoma after treatment with at least 1 doxorubicin‐based chemotherapy protocol. Methods Open‐label, multicenter, prospective single‐arm clinical trial. Dogs were treated with RAB at 1.0 mg/kg IV every 21 days for up to a total of 5 doses. L‐asparaginase was administered at 400 IU/kg SQ concurrently with the first 2 treatments of RAB. Results The overall response rate (ORR) for all dogs was 67%, with 19 dogs (41%) achieving a complete response (CR). The median progression‐free survival time (MPFS) was 63 days (range 5‐428 days). Dogs experiencing a CR as their best response had an MPFS of 144 days (range 44‐428 days). Adverse events were similar to previous studies evaluating single agent RAB. Failure to achieve a CR and having previously received L‐ASP were negative prognostic factors on multivariate analysis. Conclusions and Clinical Importance Concurrent RAB/L‐ASP appears to be both efficacious and safe for treating relapsed multicentric lymphoma in dogs. Adverse events were most often mild and no unexpected toxicoses were observed.

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Section: Discussionmentioning

confidence: 99%

Concurrent use of rabacfosadine and L‐asparaginase for relapsed or refractory multicentric lymphoma in dogs

Cawley

Wright

Meleo³

et al. 2020

Veterinary Internal Medicne

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“…Along this line, activation of autophagy by L-asparaginase treatment has been found to protect ALL cells from death, even though it is still unclear whether intracellular asparagine levels can be restored through this mechanism or not [ 64 ] ( Figure 2 ). Another study using genome-wide RNAi screen identified huntingtin associated protein 1 (HAP1) as a biomarker and a driver for the sensitivity to L-asparaginase treatment [ 65 ]. As a result, loss of HAP1 confers resistance to L-asparaginase treatment through preventing the release of calcium from endoplasmic reticulum (ER) and the subsequent calcium-dependent cell death [ 65 ] ( Figure 2 ).…”

Section: Asparagine and L-asparaginase In Acute Lymphoblastic Leukemia (All)mentioning

confidence: 99%

“…Another study using genome-wide RNAi screen identified huntingtin associated protein 1 (HAP1) as a biomarker and a driver for the sensitivity to L-asparaginase treatment [ 65 ]. As a result, loss of HAP1 confers resistance to L-asparaginase treatment through preventing the release of calcium from endoplasmic reticulum (ER) and the subsequent calcium-dependent cell death [ 65 ] ( Figure 2 ). Indeed, pharmacogenetic and functional genomic approaches have been used to identified genes associated with L-asparaginase resistance/sensitivity in ALL patient samples or cell lines [ 66 , 67 , 68 , 69 , 70 ].…”

Section: Asparagine and L-asparaginase In Acute Lymphoblastic Leukemia (All)mentioning

confidence: 99%

Asparagine: A Metabolite to Be Targeted in Cancers

2021

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Amino acids play central roles in cancer progression beyond their function as building blocks for protein synthesis. Thus, targeting amino acid acquisition and utilization has been proved to be therapeutically beneficial in various pre-clinical models. In this regard, depletion of circulating asparagine, a nonessential amino acid, by L-asparaginase has been used in treating pediatric acute lymphoblastic leukemia (ALL) for decades. Of interest, unlike most solid tumor cells, ALL cells lack the ability to synthesize their own asparagine de novo effectively. However, only until recently, growing evidence suggests that solid tumor cells strive to acquire adequate amounts of asparagine to support tumor progression. This process is subjected to the regulation at various levels, including oncogenic signal, tumor-niche interaction, intratumor heterogeneity and dietary accessibility. We will review the literature on L-asparaginase-based therapy as well as recent understanding of asparagine metabolism in solid tumor progression, with the hope of shedding light into a broader cancer therapeutic strategy by perturbing its acquisition and utilization.

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“…In addition, this study showed that the deprivation of Asn specifically determined a significant induction of zinc finger and BTB domain containing 1 (ZBTB1), which is a transcription factor involved in T cell development [117,118], whose loss was sufficient to sensitize resistant T-ALL cells to ASNase both in vitro and in vivo. ASNase resistance was also recently associated with huntingtin associated protein 1 (HAP1) expression in ALL cells through an experimental approached based on an unbiased genome-wide RNA interference screen [119]. Mechanistically, HAP1 interacts with huntingtin and the intracellular Ca 2+ channel, inositol 1,4,5-triphosphate receptor (IP3R), to form a ternary complex that mediates endoplasmic reticulum (ER) Ca 2+ release upon stimulation with inositol 1,4,5-triphosphate (IP3).…”

Section: Impaired Synthesis Of Asparagine As a Metabolic Vulnerabilitymentioning

confidence: 99%

Insights on Metabolic Reprogramming and Its Therapeutic Potential in Acute Leukemia

Martino

Tosello

Peroni

et al. 2021

IJMS

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Acute leukemias, classified as acute myeloid leukemia and acute lymphoblastic leukemia, represent the most prevalent hematologic tumors in adolescent and young adults. In recent years, new challenges have emerged in order to improve the clinical effectiveness of therapies already in use and reduce their side effects. In particular, in this scenario, metabolic reprogramming plays a key role in tumorigenesis and prognosis, and it contributes to the treatment outcome of acute leukemia. This review summarizes the latest findings regarding the most relevant metabolic pathways contributing to the continuous growth, redox homeostasis, and drug resistance of leukemia cells. We describe the main metabolic deregulations in acute leukemia and evidence vulnerabilities that could be exploited for targeted therapy.

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HAP1 loss confers l-asparaginase resistance in ALL by downregulating the calpain-1-Bid-caspase-3/12 pathway

Cited by 34 publications

References 40 publications

Concurrent use of rabacfosadine and L‐asparaginase for relapsed or refractory multicentric lymphoma in dogs

Concurrent use of rabacfosadine and L‐asparaginase for relapsed or refractory multicentric lymphoma in dogs

Asparagine: A Metabolite to Be Targeted in Cancers

Insights on Metabolic Reprogramming and Its Therapeutic Potential in Acute Leukemia

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