Hashtag

Zantrene® kills melanoma cancer cells that overproduce FTO

  • Zantrene® at low concentrations kills high FTO producing melanoma cancer cells
  • Sensitivity to Zantrene® correlates with FTO levels, where high FTO producing cells show up to 60x greater sensitivity than low FTO producing cells
  • Results are highly supportive of future clinical trials in melanoma using Zantrene® in combination with standard of care treatments.

SYDNEY, Sept. 30, 2021 /PRNewswire/ -- Race Oncology Limited ("Race") is pleased to share interim results from our collaborative preclinical melanoma research program with the University of Newcastle (ASX Announcement: 19 Mar 2021). Eminent melanoma researchers, Professor Xu Dong Zhang and Associate Professor Lei Jin, are leading the project.

This program is exploring the use of Zantrene® (bisantrene dihydrochloride) as a novel potential treatment for melanoma using cellular and mouse models. The aim is to identify drug combinations and melanoma subtypes that show improved treatment responses, with a focus on treatment-resistant melanomas.

These interim results showed Zantrene to be highly effective at killing a diverse range of high FTO producing melanoma cell subtypes. Data from the expression of the Fat Mass and Obesity-associated protein (FTO) showed an association between FTO expression level and sensitivity to Zantrene.

Zantrene® kills melanoma cancer cells that overproduce FTO Figure 1. Melanoma cells stained with the BAK1 (red) and Dapi (blue).

Zantrene has been identified as a potent targeted inhibitor of the Fat Mass and Obesity associated protein (FTO).[1] Previous studies have observed that FTO is over-produced in approximately 50% of metastatic melanomas[2] and that inhibition of FTO can overcome PD-1 immune checkpoint resistance in mouse melanoma models.[2,3] PD-1 immune checkpoint inhibitors have emerged as a front-line treatment for many types of cancer, including melanoma. While there have been major advances in melanoma treatments in recent decades, the five-year survival rate for advanced melanoma remains low.[4]

Race CSO Dr Daniel Tillett said: "These interim results are highly encouraging and support our clinical plans for Zantrene, with the correlation between FTO overexpression and sensitivity to Zantrene suggesting a strong anti-FTO therapeutic opportunity. The high sensitivity of many of the melanoma cell lines to Zantrene as a single agent at concentrations well below chemotherapeutic doses is unexpected and may offer new treatment options for melanoma patients."

Race CEO & MD Phillip Lynch said: "While challenged by COVID-19 related shutdowns we appreciate the encouraging and continued work from the team at the University of Newcastle. Zantrene continues to positively surprise us – we are very pleased with these early results. Melanoma remains a difficult cancer to treat, and one that's of particular relevance to the Australian community, so as we continue with this work, we look forward to learning more about our potential to offer new treatment options to patients."

Study Background

Melanoma is unresponsive to existing anthracyclines, yet Zantrene showed significant historical in vitro activity against fresh human melanoma samples taken from patients in human tumor cloning assays.[5,6] In a subsequent Phase I trial of Zantrene administered weekly, a patient with metastatic melanoma achieved a complete response lasting 6 months.[7] This weekly dosing schedule would likely have resulted in sustained inhibition of FTO due to the long time Zantrene remains in the human body.

Despite these early successes, four subsequent Phase 2 studies of Zantrene in 100 melanoma patients used much longer dosing intervals of once every three or 4 weeks and did not achieve the same levels of clinical response, possibly due to limited, transient inhibition of FTO.[8-11] Seventeen patients (1/16, 2/16, 0/17, 14/51) achieved disease stabilization, but no further complete responses were observed.

In light of the recent discovery that Zantrene is a potent inhibitor of the m6A RNA demethylase FTO[1] and that FTO is frequently overexpressed in metastatic melanoma[2], Race sought to explore the use of Zantrene for treating melanoma, both as a single agent and in combination with other standard of care drugs. This research will also help inform the dose regimen to be explored in future clinical trials.

Materials and Methods

Twenty five melanoma cancer cell lines were screened for their sensitivity to Zantrene®. The cell lines were selected from a wide range of primary and metastatic melanomas to cover the most common sub-types carrying a range of BRAF and NRAS mutations (Table 1).

Table 1. Cell lines used in study.

Cell Line

Origin

HEMm-MP

Normal Melanocytes (Medium Pigment)

MEL-BP

Malignant Melanoma

SK-MEL-110

Malignant Melanoma

SK-Mel-28

Malignant Melanoma 51yr Male (skin)

Mel-JD

Malignant Melanoma

MM426

Malignant Melanoma (skin)

Mel-RM

Malignant Melanoma

Mel-RMu

Malignant Melanoma

Mel-CV

Malignant Melanoma

Mel-FH

Malignant Melanoma

MM200

Primary Melanoma 43yr Female (skin)

A375

Malignant Melanoma 54yr old Female

MM170-5

Malignant Melanoma (skin)

MM283

Malignant Melanoma (skin)

ME1007

Primary Melanoma 70yr Male (leg)

SK-MEL-37

Continuous Melanoma Cell Line

IgR3

Metastatic Melanoma 60yr Male (nodule stage IV cutaneous)

SK-MEL-13

Malignant Melanoma 29yr Male

ME4405

Primary Melanoma 83yr Female (head)

MEL-BE

Malignant Melanoma

MV3

Metastatic Melanoma

MEL-EH

Malignant Melanoma

MEL-JR

Malignant Melanoma

MEL-KD

Malignant Melanoma

MM962

Malignant Melanoma (skin)

Cell viability was determined using the resazurin metabolic assay and confirmed by visual inspection under light microscopy.

IC50 values (i.e. the drug concentration that resulted in 50% cell death after 72 hrs) were determined using Prism 8 software with Nonlinear Regression analysis (variable slope, four parameters).

FTO protein expression was determined by western blotting, normalised to GAPDH expression and normal untransformed melanocytes.

All experiments were replicated a minimum of three times.

Study Highlights

1. Zantrene® is highly effective in killing melanoma cells at sub-chemotherapeutic levels.

Zantrene proved to be highly effective at killing melanoma cell lines, with 60% (15 of 25) displaying IC50 values below 100 nM concentrations (Table 2). This was seen with cell lines derived from both primary and metastatic melanoma patients. Interestingly, six of the 25 cell lines showed extreme sensitivity to Zantrene (IC50 values under 40 nM), suggesting that Zantrene may provide an effective single agent treatment for some patients.

The untransformed melanocyte cell line (normal) was highly resistant to cell killing by Zantrene, as were some of the melanoma cell lines (Table 2). The molecular mechanisms underlying this resistance to Zantrene remain to be determined.

Table 2. IC50 values for Zantrene®.

Cell Line

IC50 (nM)

HEMm-MP

1403

MEL-BP

1003

SK-MEL-110

1002

SK-Mel-28

515

Mel-JD

335

MM426

312

Mel-RM

178

Mel-RMu

167

Mel-CV

115

Mel-FH

102

MM200

96

A375

87

MM170-5

85

MM283

79

ME1007

78

SK-MEL-37

75

IgR3

72

SK-MEL-13

67

ME4405

53

MEL-BE

39

MV3

39

MEL-EH

37

MEL-JR

30

MEL-KD

28

MM962

23

2. Sensitivity to Zantrene® is independent of BRAF and NRAS mutational status.

Zantrene sensitivity did not show any correlation to either BRAF or NRAS mutational status, with individual mutant and wild type cell lines displaying a wide range of IC50 values. This result suggests that Zantrene® may show utility in patients resistant to BRAF and NRAS inhibitors.

Table 3. Effect of Zantrene® on BRAF and NRAS mutant cell lines.

Cell Line

IC50 (nM)

BRAF

NRAS

HEMn-MP

1403

Wild

Wild

SK-Mel-28

515

Mutant

Wild

Mel-JD

335

Wild

Mutant

Mel-RM

178

Wild

Mutant

Mel-Rmu

167

Mutant

Wild

Mel-CV

115

Mutant

Wild

Mel-FH

102

Wild

Wild

ME1007

78

Wild

Wild

MM200

96

Mutant

Wild

IgR3

72

Mutant

Wild

ME4405

53

Wild

Mutant

3. Sensitivity to Zantrene® correlates with FTO expression levels

Zantrene sensitivity was correlated with FTO protein overexpression levels (Figure 2 and Table 4).

Zantrene® kills melanoma cancer cells that overproduce FTO Figure 2. FTO protein expression determined by western blot.

The eight most Zantrene-resistant cell lines (i.e. those with an IC50 values greater than 100 nM) had a median FTO expression level 1.4 fold higher that of the untransformed (normal) melanocyte cell line, HEMn-MP.

In contrast, the 15 most sensitive melanoma cell lines had a median increase in FTO protein levels of 2.5 fold. The five most sensitive cell lines (i.e. those with IC50 values below 40 nM) had an average increase in FTO protein levels 3.8 fold higher (Table 4).

Table 4. FTO protein levels normalized to the FTO level of the normal human melanocyte cell line HEMn-MP.

Cell Line

FTO Level

HEMm-MP

1.0

Mel-BP

2.2

SK-MEL-110

5.0

SK-Mel-28

1.0

Mel-JD

1.3

MM426

2.8

Mel-RM

1.6

Mel-RMu

1.4

Mel-CV

1.4

Mel-FH

2.6

MM200

1.1

70W

1.9

MM170-5

3.5

MM283

2.4

ME1007

1.3

SK-MEL-37

2.4

IGR3

2.7

SK-MEL-13

4.4

ME4405

2.0

Mel-BE

1.7

MV3

5.8

Mel-EH

2.2

Mel-JR

3.6

Mel-KD

2.5

MM962

5.0

The SK-MEL-10 was an exception to the trend of high FTO overexpression being associated with high sensitivity to Zantrene. This cell line had an IC50 value over 1000 nM while displaying an FTO expression level 5 fold that of HEMn-MP. The reason for this resistance is unknown, but may be linked to high expression of drug efflux pumps like MDR1 that are known to reduce the intracellular concentration of Zantrene.

Conclusions

  • Zantrene showed unexpectedly effective killing of melanoma cell lines at concentrations well below 100 nM (sub-chemotherapeutic), with a number of cell lines displaying very high sensitivity (less than 40 nM)
  • Zantrene proved effective at killing melanoma cell lines with BRAF or NRAS mutations
  • Sensitivity to Zantrene was correlated with overproduction of the FTO protein, supporting Race's clinical plans for using Zantrene in combination with standard of care drugs for the treatment of melanoma patients.

Next Steps

  • Further preclinical studies of Zantrene in combination with standard of care melanoma drugs to identify synergistic combinations
  • Animal studies exploring the potential of Zantrene to overcome immune checkpoint inhibitor anti-PD-1(L) resistance.

References

1. Su, R., Dong, L., Li, Y., Gao, M., Han, L., Wunderlich, M., et al. (2020). Targeting FTO Suppresses Cancer Stem Cell Maintenance and Immune Evasion. Cancer Cell, 38(1), 79–96.e11.2. Yang, S., Wei, J., Cui, Y.-H., Park, G., Shah, P., Deng, Y., et al. (2019). m6A mRNA demethylase FTO regulates melanoma tumorigenicity and response to anti-PD-1 blockade. Nature Communications, 10(1), 1131–14.3. Li, N., Kang, Y., Wang, L., Huff, S., Tang, R., Hui, H., et al. (2020). ALKBH5 regulates anti-PD-1 therapy response by modulating lactate and suppressive immune cell accumulation in tumor microenvironment. Proceedings of the National Academy of Sciences, 117, 20159–20170.4. www.cancer.net/cancer-types/melanoma/statistics 5. Hoff, D. D. V., Coltman, C. A. & Forseth, B. (1981). Activity of 9–10 anthracene dicarboxaldehyde-bis[(4,5-dihydro-1-H-imidazol-2-yl)hydrazone] dihydrochloride (CL216,942) in a human tumor cloning system. Cancer Chemoth Pharm 6, 141–144. 6. Salmon SE, Meyskens Jr FL, Alberts DS, Soehnlen B, Young L. (1981). New drugs in ovarian cancer and malignant melanoma: in vitro phase II screening with the human tumor clonogenic cell assay. Cancer Treat Rep 65, 1-12.7. Alberts, D. S., Mackel, C., Pocelinko, R. & Salmon, S. E. (1982). Phase I clinical investigation of 9,10-anthracenedicarboxaldehyde-bis[(4,5-dihydro-1H-imidazol-2-yl)hydrazone] dihydrochloride with correlative in vitro human tumor clonogenic assay. Cancer Res 42, 1170–5. 8. Mackel, C., Meyskens, F. L. & Alberts, D. S. (1986). Phase II trial of bisantrene in patients with metastatic melanoma. Cancer Treat Rep 70, 1037–8. 9. Stiff, P. J. et al. (1991) Phase II trial of bisantrene for metastatic melanoma: An illinois cancer council study. Med Pediatr Oncol 19, 126–128. 10. Coates, A. S., Bishop, J., Mann, G. J. & Raghavan, D. (1986). Chemotherapy in metastatic melanoma: Phase II studies of amsacrine, mitoxantrone and bisantrene. European J Cancer Clin Oncol 22, 97–100. 11. Alberts, D. S. et al. (1987). Phase II evaluation of bisantrene hydrochloride in refractory malignant melanoma. A Southwest Oncology Group Study. Investigational New Drugs 5, 289–292.

About Race Oncology (ASX: RAC)

Race Oncology is an ASX listed precision oncology company with a Phase 2/3 cancer drug called Zantrene®.

Zantrene is a potent inhibitor of the Fatso/Fat mass and obesity associated (FTO) protein. Overexpression of FTO has been shown to be the genetic driver of a diverse range of cancers. Race is exploring the use of Zantrene as a new therapy for melanoma and clear cell renal cell carcinoma, which are both frequent FTO over-expressing cancers. The Company also has compelling clinical data for the use of Bisantrene as a chemotherapeutic agent with reduced cardiotoxicity in Acute Myeloid Leukaemia (AML), breast and ovarian cancers and is investigating its use in these areas.

Race is pursuing outsized commercial returns for shareholders via its 'Three Pillar' strategy for the clinical development of Zantrene.

Learn more at www.raceoncology.com.

Release authorised by:                                Media contact:Phil Lynch, CEO/MD on behalf                      Jane Loweof the Race Board of Directors                      +61 411 117 774phillip.lynch@raceoncology.com                    jane.lowe@irdepartment.com.au

Authors: PR Newswire

Read more https://www.prnasia.com/story/archive/3524273_AE24273_0

Health & Wellness

How to Maintain Your Oral Health During Stressful Times

Hashtag.net.au - avatar Hashtag.net.au

Life can be a bit like an Australian outback road—full of twists, turns, and the occasional bump. During these hectic, stressful times, it’s all too easy to let your oral health fall by the wayside...

The impact of visual art on mental health and productivity

Hashtag.net.au - avatar Hashtag.net.au

In a world where stress and anxiety often take center stage, the presence of visual art in our daily environments offers a quiet yet profound counterbalance. Posters and paintings are not just decor...

Understanding the Environmental and Health Impacts of Waste Disposal: Essential Insights

Hashtag.net.au - avatar Hashtag.net.au

🌎♻️Explore the health & environmental impacts of waste disposal. Dive into essential insights💡for a sustainable future! #WasteManagement #Health🌿🌍 Waste disposal is an inevitable aspect of mode...

The Role of a Child Psychologist: Helping Kids Navigate Emotional Challenges

Hashtag.net.au - avatar Hashtag.net.au

Child psychologists play an important role in aiding children to overcome behavioral and emotional challenges. The experts will easily identify the developmental stage and emotional needs of the chi...

Tomorrow Business Growth