# Novel drug combinations for improving survival from acute radiation syndrome when administered 48 hours post- irradiation

> **NIH NIH R44** · BOLDER BIOTECHNOLOGY, INC. · 2023 · $1,000,000

## Abstract

Abstract. Bone marrow is one of the most radiation-sensitive tissues, and patients acutely exposed to total
body irradiation (TBI) doses > 2 Gy develop severe neutropenia, thrombocytopenia, anemia, and lymphopenia
within days to weeks of exposure, often dying from infections (due to a lack of neutrophils) and uncontrolled
bleeding (insufficient platelets) (referred to as the hematopoietic acute radiation syndrome, or H-ARS). The few
drugs that have received FDA approval to treat H-ARS increase survival when administered within 24h of
radiation exposure, but do not increase survival when administered at later times such as 48h post-irradiation
in animal H-ARS models. In a radiological/nuclear emergency, hundreds of thousands of people potentially will
be exposed to > 2 Gy radiation and it is extremely unlikely that they all can be treated within the first 24 hours
of radiation exposure. Thus, there is a critical unmet medical need for drugs capable of increasing survival
from H-ARS when administered 48h or later post-irradiation. We demonstrated that a novel drug (PEG IL-11)
and 3 drug combination including PEG IL-11 significantly improve 30d and 180d survival of LD70/30 irradiated
mice when administered once 48h post-TBI. This is the only drug/drug combination we are aware of capable of
increasing survival when dosing is delayed until 48h post-TBI in mice. When dosed once 24h or 48h post-TBI,
the 3 proteins interact positively with each other to increase survival more than the individual proteins, most
evident at high TBI doses. The 3 protein combination and PEG IL-11 show sex-specific survival effects, up to
100% survival at LD95/30 TBI doses, when combined with a 4th radiation mitigator, an angiotensin converting
enzyme inhibitor (ACEI), an unprecedented survival rate. Most H-ARS studies to date have used inbred young
adult mice. Since mouse strains and different age mice show different radiation sensitivities, the Phase 2 grant
will evaluate whether these exciting findings extend to pediatric mice and outbred mice to determine whether
the survival efficacy and sex-specific effects of the proteins (+/- ACEI) are universal or mouse strain / age
specific. We will evaluate whether (1) PEG IL-11 and the 3 protein combination (+/- the ACEI) increase
survival of pediatric and outbred mice exposed to LD70/30 radiation doses when the proteins are administered
24 and 48h post-TBI; (2) whether increased 30d survival correlates with accelerated peripheral blood cell
recovery (neutrophils, platelets) and more rapid increases in hematopoietic stem and progenitor cell numbers
early after irradiation; and (3) whether drug treatment and increased survival correlate with specific plasma
biomarker changes. We will evaluate safety of different doses of PEG IL-1 in a mouse GLP toxicology study to
identify safe doses of the drug for use in humans, and manufacture a GMP lot of the protein, both of which are
required for filing an IND to begin testing the protein in ...

## Key facts

- **NIH application ID:** 10604184
- **Project number:** 2R44AI142909-03
- **Recipient organization:** BOLDER BIOTECHNOLOGY, INC.
- **Principal Investigator:** George Norbert Cox
- **Activity code:** R44 (R01, R21, SBIR, etc.)
- **Funding institute:** NIH
- **Fiscal year:** 2023
- **Award amount:** $1,000,000
- **Award type:** 2
- **Project period:** 2019-07-12 → 2025-04-30

## Primary source

NIH RePORTER: https://reporter.nih.gov/project-details/10604184

## Citation

> US National Institutes of Health, RePORTER application 10604184, Novel drug combinations for improving survival from acute radiation syndrome when administered 48 hours post- irradiation (2R44AI142909-03). Retrieved via AI Analytics 2026-05-23 from https://api.ai-analytics.org/grant/nih/10604184. Licensed CC0.

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