A Phase I/IIa Open-label Dose Escalation Trial Evaluating the Safety and Preliminary Efficacy of LEU011 in Subjects With Relapsed/Refractory Solid Tumours

This is a dose-escalation open-label Phase 1/2a study. The purpose of this first-in-human study is to assess the safety and tolerability of LEU011 (autologous CAR T cells targeting NKG2D ligands) in patients with solid tumours.

开始日期2023-11-13

申办/合作机构

Leucid Bio Ltd.初创企业

100 项与 LEU-011 相关的临床结果

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100 项与 LEU-011 相关的转化医学

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100 项与 LEU-011 相关的专利（医药）

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项与 LEU-011 相关的文献（医药）

1990-10-01·Clinical Immunology and Immunopathology

Differentiation of human in vivo antigen-induced lymphoblastoid B cell precursors can be prevented by natural killer cells

Article

作者: Ana Garcia-Alonso ; Jose A. Brieva

Tetanus toxoid (tet) immunization of normal humans leads to the transient appearance in the circulation of large lymphoblastoid (LB) B cells, which spontaneously secrete IgG-tet in short-term cultures. The present work examines the effect of endogenous natural killer (NK) cells, as defined as CD 16+ cells, on the LB B cell subset. NK cell depletion by monoclonal antibody (Leu11) and complement (C)-mediated lysis from LB B cell containing populations eliminated 76 +/- 7% of the cytotoxic activity against 51Cr-K-562 cells, and, in contrast, enhanced 2.7 +/- 0.3 times IgG-tet secretion. Cells untreated, treated with Leu11 alone, C alone, or with an irrelevant monoclonal antibody and C were used as controls. Furthermore, the increased IgG-tet production after NK depletion could be reversed by adding autologous CD 16(+)-enriched populations. Limiting dilution analysis revealed that the NK removal enhancement of IgG-tet production was due to an augmentation (3.18 +/- 0.63 times) of the precursor frequency of spontaneous antibody-secreting cells in NK-depleted cells with respect to control populations. Finally, the spontaneous IgG-tet-producing cells present in NK-depleted and control populations were the same since they produced similar quantities of antibody on a per cell basis and exhibited identical large size, as determined by 1 x G sedimentation technique. NK cells, therefore, exert a strong inhibitory effect on LB B cells by preventing the development of a considerable part of their precursors. This mechanism might be of importance in the control of LB B cells in vivo.

1990-01-01·Journal of immunology (Baltimore, Md. : 1950)2区 · 医学

Protection against murine neonatal herpes simplex virus infection by lymphokine-treated human leukocytes.

2区 · 医学

Article

作者: Kohl, S

One-week-old mice were protected against a uniformly lethal herpes simplex virus (HSV) infection by IL-2 alone, but especially by the addition of human mononuclear cells (MC) plus IL-2. The dose response of IL-2 was biphasic. The addition of MC from cord blood did not enhance IL-2-mediated survival. Because the effect of IL-2 alone, or IL-2 plus MC, was ablated by anti-IFN-gamma and human neonates have an IFN-gamma production defect, the protective effect of MC plus human IFN-gamma (HuIFN-gamma) was tested. MC from adults cultured for 5 days in HuIFN-gamma afforded protection. At least 1 x 10(6) HuIFN-gamma-treated MC were required with increasing survival to 1 x 10(7) MC. The effector cell activity was ablated by adherence, silica, L-leucine methyl ester treatment or treatment with Leu-M3 plus C (all macrophage markers), and OKT4 plus C treatment (CD4 marker). Use of Leu-11, Leu-7, OKT3, or OKT8 plus C did not inhibit protection and excluded NK or T cell participation. In addition to survival, the ability to produce anti-HSV antibody was reconstituted. For the first time protection was afforded by human cord blood MC after treatment with HuIFN in vitro. We have identified an IFN-gamma-driven protection system against murine neonatal HSV infection mediated by human adult- or cord blood-derived CD4-positive macrophages. Protection is associated with enhanced effector cell function and reconstitution of the neonatal antibody production defect.

1990-01-01·Neuroscience3区 · 医学

Effects of intranigral substance p and neurokinin a on striatal dopamine release—i. Interactions with substance p antagonists

3区 · 医学

Article

作者: U. Ungerstedt ; T. Hökfelt ; K.L. Valentino ; M. Herrera-Marschitz ; M.S. Reid ; M. Ohlin

The functional role of striatonigral neurokinins were studied by analysing the effects of intranigral injections of substance P and neurokinin A on the extracellular level of dopamine and dihydroxyphenylacetic acid in the striatum, as measured by in vivo microdialysis in rats. Two substance P antagonists, substance P D-Pro2 D-Trp7,9 and substance P D-Arg1 D-Trp7,9 Leu11 were tested and analysed for their ability to block the neurokinin effects. Unilateral injections of substance P (0.00007-7.0 nmol injected in 0.2 microliter) as well as neurokinin A (0.009-9.0 nmol) into the substantia nigra, pars reticulata of halothane anaesthetized rats produced long-lasting increases in ipsilateral striatal dopamine and dihydroxyphenylacetic acid levels. The dose-response relationship for substance P on dopamine was biphasic, with maximal effects occurring after the middle dose (0.007-0.07 nmol). The dose-response relationship for neurokinin A was monophasic. Intranigral injections of substance P D-Pro2 D-Trp7,9 (0.07-0.7 nmol) or substance P D-Arg1 D-Trp7,9 Leu11 (0.07-0.7 nmol) produced a decrease in striatal dopamine, but an increase in striatal dihydroxyphenylacetic acid. At a low dose (0.07 nmol) substance P D-Pro2 D-Trp7,9 enhanced the dopamine increase produced by intranigral substance P (0.07 nmol) or neurokinin A (0.09), while at a high dose (0.7 nmol) it blocked both substance P and neurokinin A effects. Both doses of substance P D-Arg1 D-Trp7,9 Leu11 (0.07 and 0.7 nmol) blocked the substance P- but not the neurokinin A-induced increase in striatal dopamine. Immunohistochemical analysis revealed that high doses of substance P (7.0 nmol) and neurokinin A (0.9 and 9.0 nmol), as well as substance P D-Pro2 D-Trp7,9 and substance P D-Arg1 D-Trp7,9 Leu11 (0.07 and 0.7 nmol), induced a restricted loss of tyrosine hydroxylase in dendrites and cells, and neuropeptide K in terminals, at the site of injection. Further analysis shows that co-administration of substance P (0.07 nmol) or neurokinin A (0.09 nmol) did not modify the extent of the depletion of both immunoreactivities induced by substance P D-Arg1 D-Trp7,9 Leu11 (0.7 nmol). The extent of the effect produced by substance P D-Arg1 D-Trp7,9 Leu11 (0.7 nmol) was, however, smaller than the spread of intranigral injection of [125I]Bolton-Hunter-labelled substance P D-Arg1 D-Trp7,9 Leu11, and it is suggested that the "neurotoxic" effects of the substance P antagonists are not primarily involved in their abilities to inhibit striatal dopamine release and block the stimulation of dopamine after intranigral substance P and neurokinin A.(ABSTRACT TRUNCATED AT 400 WORDS)

项与 LEU-011 相关的新闻（医药）

2023-09-21

·PRNewswire

Leucid Bio Granted MHRA Clinical Trial Authorisation for Lateral NKG2D CAR-T Cell Therapy LEU011

Company on-track to dose first patient in LEU011 Phase 1/2 AERIAL trial during the fourth quarter of 2023 Lead programme, LEU011 previously awarded an Innovation Passport by MHRA for the treatment of solid tumours expressing NKG2D ligands LONDON, Sept. 21, 2023 /PRNewswire/ -- Leucid Bio ("Leucid" or the "Company"), a privately-held biotechnology company pursuing the development of innovative Chimeric Antigen Receptor T-cell (CAR-T) therapies using the Company's proprietary Lateral CAR platform, today announced that the U.K. Medicines and Healthcare products Regulatory Agency (MHRA) has granted clinical trial authorisation (CTA) to commence the Phase 1/2 AERIAL clinical trial evaluating the safety and tolerability of LEU011 for the treatment of adults with relapsed or refractory solid tumours. In September 2022, LEU011 received the innovative medicine designation, the Innovation Passport, as part of the Innovative Licensing and Access Pathway (ILAP) from the MHRA for the treatment of solid tumours expressing NKG2D ligands. Established in 2021, ILAP is a pathway supporting innovative approaches to the safe, timely and efficient development of medicines to improve patient access. "The MHRA's authorisation and the ILAP designation for LEU011 highlight the strong potential of our proprietary lateral CAR T candidate LEU011 for the treatment of solid tumours," commented Filippo Petti, Chief Executive Officer, Leucid Bio. "The development of LEU011 demonstrates our commitment to pushing the boundaries in cell therapy research and underpins our dedicated focus on pursuing novel, durable therapies for cancer patients with limited treatment options." Dr. John Maher, Chief Scientific Officer, Leucid Bio, stated, "The design of the AERIAL trial, which was inspired by our exciting preclinical data for LEU011, is aimed at assessing the broad potential of the innovative cell therapy across several solid tumours expressing NKG2D ligands. We look forward to initiating the AERIAL study over the next few months and providing preliminary first-in-human data for LEU011 in 2024." About LEU011 and AERIAL Trial LEU011 is an autologous, lateral CAR T cell therapy targeting NKG2D ligands. The NKG2D receptor enables immune recognition of one or more of the eight human NKG2D ligands expressed on transformed, infected or damaged cells. LEU011 has the potential for the treatment of multiple cancer indications as NKG2D ligands are reported to be expressed on more than 80% of human tumours. The Phase 1/2 AERIAL trial will evaluate the safety and clinical activity of LEU011 in patients with relapsed or refractory solid tumours following preconditioning chemotherapy. The Phase 1/2 trial consists of an open-label, single-ascending dose design which will identify the maximum tolerated dose for LEU011. Following the dose-escalation portion of the trial, LEU011 will further be evaluated in a dose expansion open-label segment with enrolment of patients with solid tumours expressing one or more NKG2D ligands. About Leucid Bio Leucid Bio is a biotechnology company developing novel, Lateral CAR cell therapies for the treatment of refractory cancers. Leucid was established to translate 20 years of King's College London research in the CAR-T field and is led by a highly experienced management team, including scientific founder John Maher. Leucid is headquartered in London, UK, with operations based at Guy's Hospital including R&D and process development laboratories, enabling the Company to maintain its patient-centric focus on developing next-generation cell therapies for the benefit of individuals with hard-to-treat solid tumours. SOURCE Leucid Bio

细胞疗法临床申请临床研究免疫疗法

2023-04-18

·Pharmaceutical Technology

ImaginAb licenses CD8 ImmunoPET tracer to Leucid Bio

Leucid Bio will use ImaginAb’s CD8 ImmunoPET tracer along with LEU011 in its basket study to treat solid tumours. Credit: National Cancer Institute on Unsplash. Biotechnology company ImaginAb has entered into a new non-exclusive licence and supply agreement with Leucid Bio for CD8 ImmunoPET technology. ImaginAb will be responsible for licensing and supplying the clinical doses of 89Zr crefmirlimab berdoxam, its investigational CD8 ImmunoPET tracer, to Leucid Bio. Leucid Bio will use the CD8 ImmunoPET tracer along with LEU011 targeting NKG2DL, autologous CAR T-cells, in its basket study to treat solid tumours. ImaginAb CEO Ian Wilson stated: “We are delighted that Leucid Bio will use our investigational CD8 ImmunoPET for the first time in conjunction with CAR-T therapies. “This agreement with Leucid Bio is an opportunity for ImaginAb to continue expanding our partnerships, and showcases the increasing adoption of our CD8 ImmunoPET technology.” CD8 ImmunoPET (89Zr crefmirlimab berdoxam) is an 89Zr-labeled mini body, designed to bind to CD8 receptors on human T cells for non-invasive, quantitative PET imaging. The technique is currently being investigated for diagnosing the immune status of a patient, measuring the efficacy of immunotherapies and predicting patients’ outcomes. Leucid Bio chief business officer Artin Moussavi said: “This is an exciting partnership for Leucid as this cutting-edge technology will provide evidence of the biodistribution of LEU011 CAR T-cells. “This will be the first time this technology will be used in a solid tumour CAR-T clinical setting, allowing Leucid to generate data that demonstrate the tracking of LEU011 to tumour sites in the first phase of the trial. “This data would validate in humans the significant improvements already demonstrated with LEU011 in preclinical studies.” Cell & Gene Therapy coverage on Pharmaceutical Technology is supported by Cytiva. Editorial content is independently produced and follows the highest standards of journalistic integrity. Topic sponsors are not involved in the creation of editorial content.

引进/卖出免疫疗法

2023-04-12

·BioSpace

ImaginAb Executes New License and Supply Agreement for CD8 ImmunoPET Technology with Leucid Bio

LOS ANGELES and LONDON, April 12, 2023 /PRNewswire/ -- ImaginAb Inc., a global biotechnology company developing 89Zr crefmirlimab berdoxam (CD8 ImmunoPET™) imaging agent and radiopharmaceutical therapies (RPT), is pleased to announce the execution of a new non-exclusive License and Supply Agreement with Leucid Bio (Leucid), a biotech company pursuing a differentiated approach to develop next generation Chimeric Antigen Receptor T-cell (CAR-T) therapies using the Company's proprietary Lateral CAR Platform. Under the terms of the agreement, ImaginAb will license and supply clinical doses of ImaginAb's investigational CD8 ImmunoPET tracer, 89Zr crefmirlimab berdoxam, to Leucid for use in its basket study in solid tumors, with LEU011 targeting NKG2DL, Autologous CAR T-cells. Ian Wilson, Chief Executive Officer of ImaginAb, said: "We are delighted that Leucid Bio will use our investigational CD8 ImmunoPET for the first time in conjunction with CAR-T therapies. This agreement with Leucid Bio is an opportunity for ImaginAb to continue expanding our partnerships and showcases the increasing adoption of our CD8 ImmunoPET technology." Artin Moussavi, Chief Business Officer of Leucid Bio, commented: "This is an exciting partnership for Leucid as this cutting edge technology will provide evidence of the biodistribution of LEU011 CAR T-cells. This will be the first time this technology will be used in a solid tumor CAR-T clinical setting allowing Leucid to generate data that demonstrates the tracking of LEU011 to tumor sites in the first phase of the trial. This data would validate, in humans, the significant improvements already demonstrated with LEU011 in preclinical studies." About ImaginAb A clinical stage, revenue-generating global biotechnology company developing next-generation imaging agents and radiopharmaceutical therapy products through its proprietary minibody and cys-diabody platforms. The lead candidate, CD8 ImmunoPET™, is currently in Phase II clinical trials and has been licensed by pharmaceutical and biotech companies for use in immunotherapy clinical trials. For more information, visit About CD8 ImmunoPET™ (89Zr crefmirlimab berdoxam) An 89Zr-labeled minibody that has been designed to bind to the CD8 receptor on human T cells for quantitative, non-invasive PET imaging. This method is currently being researched to determine whether it may be used to diagnose the immune status of a patient, to measure the efficacy of immunotherapies, and to predict patient outcomes. About Leucid Bio Leucid Bio is a pioneering biotech company developing cell therapies for refractory cancers, especially solid tumours. Leucid was founded to translate 20 years of King's College London (King's) research in the CAR-T field and is led by a highly experienced management team with both scientific and commercial expertise. As part of Leucid's ongoing relationship with King's, it benefits from exclusive access to and resources from the deep scientific, clinical, and manufacturing expertise of John Maher and his academic team of immuno-oncology experts. Leucid is headquartered in London, UK, with operations based at Guy's Hospital with its own R&D and process development laboratories, enabling it to maintain its patient-centric focus on developing better cell therapies for the benefit of individuals with hard-to-treat solid tumours. View original content to download multimedia: SOURCE ImaginAb, Inc.

免疫疗法引进/卖出临床2期细胞疗法

100 项与 LEU-011 相关的药物交易

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