Company: KROS
Filing Date: 2025-02-26
Form Type: 10-K
Source: 0001664710-25-000018
Chunk: 94

Company: Keros Therapeutics, Inc.
Filing Date: 2025-02-26
Form: 10-K
Item: Item 1
Chunk 94
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, or GDF, ligands were found to be increased in PAH, even in the absence of causative mutations. Multiple experimental third-party models also demonstrated the efficacy of augmenting BMP signaling or suppressing TGF-ß, activin or GDF signaling, which we believe supports the notion that imbalanced homeostatic BMP and pathogenic TGF-ß, activin and GDF signaling drive the development and progression of pulmonary vascular disease.

Limitations of Current Treatment Options for PAH

All of the currently-approved therapies for PAH are vasodilators, which are medications that dilate blood vessels. These vasodilators fall into one of three categories: (i) prostanoids, which are agonists of the prostacyclin signaling pathway; (ii) endothelin receptor antagonists, or ERAs; or (iii) therapies that stimulate the nitric oxide-soluble guanylate cyclase-cyclic guanosine monophosphate axis, such as (a) phosphodiesterase 5 inhibitors, or PDE5i, or (b) soluble guanylate cyclase activators, which augment cGMP signaling, a key mediator in pulmonary arterial vasodilation.

One common approach to treating early-stage or mild PAH is an oral combination therapy using ERA and PDE5i medications. More severe PAH generally requires the addition of prostanoid, via oral or inhaled administration, while advanced PAH typically requires continuous parenteral administration. Each of these individual therapies may modestly improve a patient’s functional status and in some cases survival, but is limited by systemic hypotension, systemic side effects and tachyphylaxis, which is an acute, sudden decrease in response to a product after its administration. Additionally, combination therapy is limited by the combined side effect profiles. Although existing treatments may modestly slow the progression of PAH, none appear to fully halt or reverse the disease’s progression.

The key pathologic features of PAH include an unchecked proliferation of different vascular cells in the pulmonary arterial wall, including smooth muscle cells, endothelial cells and fibroblasts, and an exaggerated perivascular infiltration of inflammatory cells leading to a marked narrowing of small to medium sized pulmonary arteries. However, most currently approved therapies lower pulmonary vascular resistance through vasodilatation and do not fully target the obliterative pulmonary vascular remodeling. Accordingly, we believe there is a significant unmet need for a treatment that primarily targets the proliferative pathological processes and can be used alone or