# Evaluating the role of branched chain amino acid transporters in Clostridium perfringens-induced gas gangrene in diabetic and normal mouse models

> **NIH NIH R21** · UNIVERSITY OF PITTSBURGH AT PITTSBURGH · 2024 · $222,000

## Abstract

Project Summary
 Clostridium perfringens type A strains cause 80-90% of all cases of gas gangrene (clostridial myonecrosis),
which involves infection of muscle. Gas gangrene is nearly 100% fatal unless promptly treated, which often in-
volves amputation of limbs. Even with treatment, this infection still causes 67% mortality in diabetics. However,
only a small percentage of wounds infected with C. perfringens progress to gas gangrene, highlighting the im-
portance of host factors in this disease. A well-recognized host risk factor for gas gangrene is type 1 or 2 diabetes.
 The basis for the association between C. perfringens gas gangrene and diabetes is incompletely understood.
However, we detected strongly upregulated expression of the C. perfringens brnQ2 gene encoding a branched
chain amino acid (BCAA) transporter when a type A strain was co-cultured with C2C12 differentiated muscle
cells. We hypothesize that this observation helps to explain why diabetics are more prone to develop gas gan-
grene. This hypothesis is supported by additional facts. First, C. perfringens cannot synthesize its own BCAAs
so, to grow, this bacterium must obtain these amino acids from the host using a BCAA transporter(s). Second,
clinical studies found that diabetics (both type 1 and type 2) have elevated BCAA levels in their blood and, likely,
muscle cells. Therefore we postulate that, during gas gangrene (particularly in diabetics), C. perfringens growing
in muscle uses a BCAA transporter(s) to take-up BCAAs from blood and/or toxin-damaged muscle cells.
 To test our hypothesis and identify which BCAA transporter(s) are important for C. perfringens growth and
survival in gas gangrene-relevant environments, Aim 1 will evaluate C. perfringens growth and survival in gas
gangrene-relevant blood or the presence of toxin-damaged differentiated C2C12 muscle cells. First, C.
perfringens type A strain ATCC3624 null mutants unable to produce the toxins involved in gas gangrene (i.e.,
perfringolysin O and alpha toxin) will be compared against wild-type ATCC3624 for their growth/survival using,
and ability to release BCAAs from, C2C12 cells. If viable bacterial numbers and BCAA release are less for the
toxin mutants, they will be complemented and re-assayed to rule out secondary mutation effects. Aim 1 will then
use the brnQ2 null mutant and a complementing strain to assess BrnQ2’s role in BCAA uptake and its importance
for ATCC3624 growth/survival using blood or toxin-damaged C2C12 cells. Similar studies will be performed
using ATCC3624 mutants unable to produce brnQ or brnQ3, which encode the other two BCAA transporters of
C. perfringens. Aim 2 will evaluate whether BKSdb/db mice (a mouse model for type 2 diabetes that has high
blood BCAA levels) are more susceptible than normal mice for developing gas gangrene. This Aim will then use
the Aim 1 BrnQ-family null mutants and complementing strains to identify which of those BCAA transporter(s)
are important contributors to gas g...

## Key facts

- **NIH application ID:** 10867462
- **Project number:** 5R21AI178207-02
- **Recipient organization:** UNIVERSITY OF PITTSBURGH AT PITTSBURGH
- **Principal Investigator:** Jihong Li
- **Activity code:** R21 (R01, R21, SBIR, etc.)
- **Funding institute:** NIH
- **Fiscal year:** 2024
- **Award amount:** $222,000
- **Award type:** 5
- **Project period:** 2023-06-14 → 2026-05-31

## Primary source

NIH RePORTER: https://reporter.nih.gov/project-details/10867462

## Citation

> US National Institutes of Health, RePORTER application 10867462, Evaluating the role of branched chain amino acid transporters in Clostridium perfringens-induced gas gangrene in diabetic and normal mouse models (5R21AI178207-02). Retrieved via AI Analytics 2026-05-24 from https://api.ai-analytics.org/grant/nih/10867462. Licensed CC0.

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