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1.
Mol Genet Metab ; 139(4): 107653, 2023 08.
Artigo em Inglês | MEDLINE | ID: mdl-37463544

RESUMO

Classical homocystinuria (HCU) is a rare inborn error of amino acid metabolism characterized by accumulation of homocysteine, an intermediate product of methionine metabolism, leading to significant systemic toxicities, particularly within the vascular, skeletal, and ocular systems. Most patients require lifelong dietary therapy with severe restriction of natural protein to minimize methionine intake, and many patients still struggle to maintain healthy homocysteine levels. Since eliminating methionine from the diet reduces homocysteine levels, we hypothesized that an enzyme that can degrade methionine within the gastrointestinal (GI) tract could help HCU patients maintain healthy levels while easing natural protein restrictions. We describe the preclinical development of CDX-6512, a methionine gamma lyase (MGL) enzyme that was engineered for stability and activity within the GI tract for oral administration to locally degrade methionine. CDX-6512 is stable to low pH and intestinal proteases, enabling it to survive the harsh GI environment without enteric coating and to degrade methionine freed from dietary protein within the small intestine. Administering CDX-6512 to healthy non-human primates following a high protein meal led to a dose-dependent suppression of plasma methionine. In Tg-I278T Cbs-/- mice, an animal model that recapitulates aspects of HCU disease including highly elevated serum homocysteine levels, oral dosing of CDX-6512 after a high protein meal led to suppression in serum levels of both methionine and homocysteine. When animals received a daily dose of CDX-6512 with a high protein meal for two weeks, the Tg-I278T Cbs-/- mice maintained baseline homocysteine levels, whereas homocysteine levels in untreated animals increased by 39%. These preclinical data demonstrate the potential of CDX-6512 as an oral enzyme therapy for HCU.


Assuntos
Homocistinúria , Humanos , Camundongos , Animais , Homocistinúria/tratamento farmacológico , Homocistinúria/genética , Metionina/metabolismo , Homocisteína , Cistationina beta-Sintase/genética , Cistationina beta-Sintase/metabolismo , Racemetionina , Trato Gastrointestinal/metabolismo
2.
Science ; 376(6599): 1321-1327, 2022 06 17.
Artigo em Inglês | MEDLINE | ID: mdl-35709255

RESUMO

The emergence of new therapeutic modalities requires complementary tools for their efficient syntheses. Availability of methodologies for site-selective modification of biomolecules remains a long-standing challenge, given the inherent complexity and the presence of repeating residues that bear functional groups with similar reactivity profiles. We describe a bioconjugation strategy for modification of native peptides relying on high site selectivity conveyed by enzymes. We engineered penicillin G acylases to distinguish among free amino moieties of insulin (two at amino termini and an internal lysine) and manipulate cleavable phenylacetamide groups in a programmable manner to form protected insulin derivatives. This enables selective and specific chemical ligation to synthesize homogeneous bioconjugates, improving yield and purity compared to the existing methods, and generally opens avenues in the functionalization of native proteins to access biological probes or drugs.


Assuntos
Insulina , Penicilina Amidase , Peptídeos , Engenharia de Proteínas , Sequência de Aminoácidos , Humanos , Insulina/análogos & derivados , Insulina/biossíntese , Lisina/química , Penicilina Amidase/química , Penicilina Amidase/genética , Peptídeos/química , Peptídeos/genética , Engenharia de Proteínas/métodos
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