Serum Proteome Profiling of Diabetic Patients Treated With DPP4 and SGLT2 Inhibitors Shows Improved Cognitive and Cardiovascular Functions
ABSTRACT Type 2 diabetes (T2D) is a complex metabolic disorder with rising global prevalence, leading to major complications such as cognitive decline, cardiovascular disease, and systemic inflammation. Although advances in T2D pharmacotherapy have shown promise in addressing these complications, th...
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| Published in | Proteomics (Weinheim) Vol. 25; no. 14; pp. e70000 - n/a |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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01.07.2025
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| Abstract | ABSTRACT
Type 2 diabetes (T2D) is a complex metabolic disorder with rising global prevalence, leading to major complications such as cognitive decline, cardiovascular disease, and systemic inflammation. Although advances in T2D pharmacotherapy have shown promise in addressing these complications, the underlying protective mechanisms remain unclear, especially as they appear to be independent of glycemic control. In this study, we performed a comprehensive proteomic analysis using LC‐MS/MS to explore the molecular effects of newer antidiabetic drugs, specifically dipeptidyl peptidase 4 (DPP4) and sodium‐glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is), when combined with metformin, the first‐line treatment for T2D. Serum samples from 76 individuals were analyzed, including 16 healthy subjects, 32 T2D patients on metformin monotherapy, and 28 T2D patients receiving combination therapy. We identified and quantified 505 low‐abundance proteins, followed by statistical analysis and ingenuity pathway analysis. Our findings revealed significant changes in key biological pathways related to synaptogenesis, insulin‐like growth factor transport, and neurovascular coupling signaling. These results were further validated using parallel reaction monitoring. Notably, pathways associated with cognitive function and cardiovascular health were adversely affected in T2D patients on metformin monotherapy but showed improvement with combination therapy. These results suggest that the combination of DPP4 and SGLT2is offers a therapeutic advantage, underscoring the importance of personalized treatment strategies in managing T2D complications.
Summary: Type 2 diabetes (T2D) is a chronic metabolic disorder that contributes to the progression of cognitive impairment, cardiovascular diseases, and renal dysfunction. Cognitive decline in T2D patients can also increase the risk of developing neurological conditions like Alzheimer's disease.
Recently developed antidiabetic drugs have shown promising cardiovascular and renal health effects, such as dipeptidyl peptidase 4 (DPP4) inhibitors and sodium‐glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is). However, the precise mechanisms by which these drugs influence biological pathways related to cognitive function and central nervous system (CNS) development remain unclear.
In this study, we explored the impact of these newer antidiabetic drugs in combination with metformin, compared to metformin monotherapy and healthy controls, by investigating differentially expressed proteins and their role in cognitive processes.
Our findings reveal that DPP4 and SGLT2is activate key biological pathways—such as synaptogenesis, insulin‐like growth factor regulation, and neurovascular coupling—that are either suppressed or not enriched in the metformin‐only group. These pathways are critical for maintaining and regulating CNS function and cognitive health. |
|---|---|
| AbstractList | ABSTRACT
Type 2 diabetes (T2D) is a complex metabolic disorder with rising global prevalence, leading to major complications such as cognitive decline, cardiovascular disease, and systemic inflammation. Although advances in T2D pharmacotherapy have shown promise in addressing these complications, the underlying protective mechanisms remain unclear, especially as they appear to be independent of glycemic control. In this study, we performed a comprehensive proteomic analysis using LC‐MS/MS to explore the molecular effects of newer antidiabetic drugs, specifically dipeptidyl peptidase 4 (DPP4) and sodium‐glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is), when combined with metformin, the first‐line treatment for T2D. Serum samples from 76 individuals were analyzed, including 16 healthy subjects, 32 T2D patients on metformin monotherapy, and 28 T2D patients receiving combination therapy. We identified and quantified 505 low‐abundance proteins, followed by statistical analysis and ingenuity pathway analysis. Our findings revealed significant changes in key biological pathways related to synaptogenesis, insulin‐like growth factor transport, and neurovascular coupling signaling. These results were further validated using parallel reaction monitoring. Notably, pathways associated with cognitive function and cardiovascular health were adversely affected in T2D patients on metformin monotherapy but showed improvement with combination therapy. These results suggest that the combination of DPP4 and SGLT2is offers a therapeutic advantage, underscoring the importance of personalized treatment strategies in managing T2D complications.
Summary: Type 2 diabetes (T2D) is a chronic metabolic disorder that contributes to the progression of cognitive impairment, cardiovascular diseases, and renal dysfunction. Cognitive decline in T2D patients can also increase the risk of developing neurological conditions like Alzheimer's disease.
Recently developed antidiabetic drugs have shown promising cardiovascular and renal health effects, such as dipeptidyl peptidase 4 (DPP4) inhibitors and sodium‐glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is). However, the precise mechanisms by which these drugs influence biological pathways related to cognitive function and central nervous system (CNS) development remain unclear.
In this study, we explored the impact of these newer antidiabetic drugs in combination with metformin, compared to metformin monotherapy and healthy controls, by investigating differentially expressed proteins and their role in cognitive processes.
Our findings reveal that DPP4 and SGLT2is activate key biological pathways—such as synaptogenesis, insulin‐like growth factor regulation, and neurovascular coupling—that are either suppressed or not enriched in the metformin‐only group. These pathways are critical for maintaining and regulating CNS function and cognitive health. Type 2 diabetes (T2D) is a complex metabolic disorder with rising global prevalence, leading to major complications such as cognitive decline, cardiovascular disease, and systemic inflammation. Although advances in T2D pharmacotherapy have shown promise in addressing these complications, the underlying protective mechanisms remain unclear, especially as they appear to be independent of glycemic control. In this study, we performed a comprehensive proteomic analysis using LC-MS/MS to explore the molecular effects of newer antidiabetic drugs, specifically dipeptidyl peptidase 4 (DPP4) and sodium-glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is), when combined with metformin, the first-line treatment for T2D. Serum samples from 76 individuals were analyzed, including 16 healthy subjects, 32 T2D patients on metformin monotherapy, and 28 T2D patients receiving combination therapy. We identified and quantified 505 low-abundance proteins, followed by statistical analysis and ingenuity pathway analysis. Our findings revealed significant changes in key biological pathways related to synaptogenesis, insulin-like growth factor transport, and neurovascular coupling signaling. These results were further validated using parallel reaction monitoring. Notably, pathways associated with cognitive function and cardiovascular health were adversely affected in T2D patients on metformin monotherapy but showed improvement with combination therapy. These results suggest that the combination of DPP4 and SGLT2is offers a therapeutic advantage, underscoring the importance of personalized treatment strategies in managing T2D complications. Summary: Type 2 diabetes (T2D) is a chronic metabolic disorder that contributes to the progression of cognitive impairment, cardiovascular diseases, and renal dysfunction. Cognitive decline in T2D patients can also increase the risk of developing neurological conditions like Alzheimer's disease. Recently developed antidiabetic drugs have shown promising cardiovascular and renal health effects, such as dipeptidyl peptidase 4 (DPP4) inhibitors and sodium-glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is). However, the precise mechanisms by which these drugs influence biological pathways related to cognitive function and central nervous system (CNS) development remain unclear. In this study, we explored the impact of these newer antidiabetic drugs in combination with metformin, compared to metformin monotherapy and healthy controls, by investigating differentially expressed proteins and their role in cognitive processes. Our findings reveal that DPP4 and SGLT2is activate key biological pathways-such as synaptogenesis, insulin-like growth factor regulation, and neurovascular coupling-that are either suppressed or not enriched in the metformin-only group. These pathways are critical for maintaining and regulating CNS function and cognitive health. Type 2 diabetes (T2D) is a complex metabolic disorder with rising global prevalence, leading to major complications such as cognitive decline, cardiovascular disease, and systemic inflammation. Although advances in T2D pharmacotherapy have shown promise in addressing these complications, the underlying protective mechanisms remain unclear, especially as they appear to be independent of glycemic control. In this study, we performed a comprehensive proteomic analysis using LC‐MS/MS to explore the molecular effects of newer antidiabetic drugs, specifically dipeptidyl peptidase 4 (DPP4) and sodium‐glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is), when combined with metformin, the first‐line treatment for T2D. Serum samples from 76 individuals were analyzed, including 16 healthy subjects, 32 T2D patients on metformin monotherapy, and 28 T2D patients receiving combination therapy. We identified and quantified 505 low‐abundance proteins, followed by statistical analysis and ingenuity pathway analysis. Our findings revealed significant changes in key biological pathways related to synaptogenesis, insulin‐like growth factor transport, and neurovascular coupling signaling. These results were further validated using parallel reaction monitoring. Notably, pathways associated with cognitive function and cardiovascular health were adversely affected in T2D patients on metformin monotherapy but showed improvement with combination therapy. These results suggest that the combination of DPP4 and SGLT2is offers a therapeutic advantage, underscoring the importance of personalized treatment strategies in managing T2D complications. Summary : Type 2 diabetes (T2D) is a chronic metabolic disorder that contributes to the progression of cognitive impairment, cardiovascular diseases, and renal dysfunction. Cognitive decline in T2D patients can also increase the risk of developing neurological conditions like Alzheimer's disease. Recently developed antidiabetic drugs have shown promising cardiovascular and renal health effects, such as dipeptidyl peptidase 4 (DPP4) inhibitors and sodium‐glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is). However, the precise mechanisms by which these drugs influence biological pathways related to cognitive function and central nervous system (CNS) development remain unclear. In this study, we explored the impact of these newer antidiabetic drugs in combination with metformin, compared to metformin monotherapy and healthy controls, by investigating differentially expressed proteins and their role in cognitive processes. Our findings reveal that DPP4 and SGLT2is activate key biological pathways—such as synaptogenesis, insulin‐like growth factor regulation, and neurovascular coupling—that are either suppressed or not enriched in the metformin‐only group. These pathways are critical for maintaining and regulating CNS function and cognitive health. Type 2 diabetes (T2D) is a complex metabolic disorder with rising global prevalence, leading to major complications such as cognitive decline, cardiovascular disease, and systemic inflammation. Although advances in T2D pharmacotherapy have shown promise in addressing these complications, the underlying protective mechanisms remain unclear, especially as they appear to be independent of glycemic control. In this study, we performed a comprehensive proteomic analysis using LC-MS/MS to explore the molecular effects of newer antidiabetic drugs, specifically dipeptidyl peptidase 4 (DPP4) and sodium-glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is), when combined with metformin, the first-line treatment for T2D. Serum samples from 76 individuals were analyzed, including 16 healthy subjects, 32 T2D patients on metformin monotherapy, and 28 T2D patients receiving combination therapy. We identified and quantified 505 low-abundance proteins, followed by statistical analysis and ingenuity pathway analysis. Our findings revealed significant changes in key biological pathways related to synaptogenesis, insulin-like growth factor transport, and neurovascular coupling signaling. These results were further validated using parallel reaction monitoring. Notably, pathways associated with cognitive function and cardiovascular health were adversely affected in T2D patients on metformin monotherapy but showed improvement with combination therapy. These results suggest that the combination of DPP4 and SGLT2is offers a therapeutic advantage, underscoring the importance of personalized treatment strategies in managing T2D complications. Summary: Type 2 diabetes (T2D) is a chronic metabolic disorder that contributes to the progression of cognitive impairment, cardiovascular diseases, and renal dysfunction. Cognitive decline in T2D patients can also increase the risk of developing neurological conditions like Alzheimer's disease. Recently developed antidiabetic drugs have shown promising cardiovascular and renal health effects, such as dipeptidyl peptidase 4 (DPP4) inhibitors and sodium-glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is). However, the precise mechanisms by which these drugs influence biological pathways related to cognitive function and central nervous system (CNS) development remain unclear. In this study, we explored the impact of these newer antidiabetic drugs in combination with metformin, compared to metformin monotherapy and healthy controls, by investigating differentially expressed proteins and their role in cognitive processes. Our findings reveal that DPP4 and SGLT2is activate key biological pathways-such as synaptogenesis, insulin-like growth factor regulation, and neurovascular coupling-that are either suppressed or not enriched in the metformin-only group. These pathways are critical for maintaining and regulating CNS function and cognitive health.Type 2 diabetes (T2D) is a complex metabolic disorder with rising global prevalence, leading to major complications such as cognitive decline, cardiovascular disease, and systemic inflammation. Although advances in T2D pharmacotherapy have shown promise in addressing these complications, the underlying protective mechanisms remain unclear, especially as they appear to be independent of glycemic control. In this study, we performed a comprehensive proteomic analysis using LC-MS/MS to explore the molecular effects of newer antidiabetic drugs, specifically dipeptidyl peptidase 4 (DPP4) and sodium-glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is), when combined with metformin, the first-line treatment for T2D. Serum samples from 76 individuals were analyzed, including 16 healthy subjects, 32 T2D patients on metformin monotherapy, and 28 T2D patients receiving combination therapy. We identified and quantified 505 low-abundance proteins, followed by statistical analysis and ingenuity pathway analysis. Our findings revealed significant changes in key biological pathways related to synaptogenesis, insulin-like growth factor transport, and neurovascular coupling signaling. These results were further validated using parallel reaction monitoring. Notably, pathways associated with cognitive function and cardiovascular health were adversely affected in T2D patients on metformin monotherapy but showed improvement with combination therapy. These results suggest that the combination of DPP4 and SGLT2is offers a therapeutic advantage, underscoring the importance of personalized treatment strategies in managing T2D complications. Summary: Type 2 diabetes (T2D) is a chronic metabolic disorder that contributes to the progression of cognitive impairment, cardiovascular diseases, and renal dysfunction. Cognitive decline in T2D patients can also increase the risk of developing neurological conditions like Alzheimer's disease. Recently developed antidiabetic drugs have shown promising cardiovascular and renal health effects, such as dipeptidyl peptidase 4 (DPP4) inhibitors and sodium-glucose cotransporter 2 (SGLT2) inhibitors (SGLT2is). However, the precise mechanisms by which these drugs influence biological pathways related to cognitive function and central nervous system (CNS) development remain unclear. In this study, we explored the impact of these newer antidiabetic drugs in combination with metformin, compared to metformin monotherapy and healthy controls, by investigating differentially expressed proteins and their role in cognitive processes. Our findings reveal that DPP4 and SGLT2is activate key biological pathways-such as synaptogenesis, insulin-like growth factor regulation, and neurovascular coupling-that are either suppressed or not enriched in the metformin-only group. These pathways are critical for maintaining and regulating CNS function and cognitive health. |
| Author | Sanni, Akeem Hamdy, Noha A. Onigbinde, Sherifdeen Osman, Shams T. El‐Khordagui, Labiba K. Purba, Waziha Tasnim Mechref, Yehia Bhuiyan, Md Mostofa Al Amin El‐Yazbi, Ahmed Hakim, Md Abdul |
| Author_xml | – sequence: 1 givenname: Md Abdul surname: Hakim fullname: Hakim, Md Abdul organization: Texas Tech University – sequence: 2 givenname: Akeem surname: Sanni fullname: Sanni, Akeem organization: Texas Tech University – sequence: 3 givenname: Shams T. surname: Osman fullname: Osman, Shams T. organization: Alexandria University – sequence: 4 givenname: Noha A. surname: Hamdy fullname: Hamdy, Noha A. organization: Alexandria University – sequence: 5 givenname: Waziha Tasnim surname: Purba fullname: Purba, Waziha Tasnim organization: Texas Tech University – sequence: 6 givenname: Md Mostofa Al Amin surname: Bhuiyan fullname: Bhuiyan, Md Mostofa Al Amin organization: Texas Tech University – sequence: 7 givenname: Sherifdeen surname: Onigbinde fullname: Onigbinde, Sherifdeen organization: Texas Tech University – sequence: 8 givenname: Labiba K. surname: El‐Khordagui fullname: El‐Khordagui, Labiba K. organization: Alexandria University – sequence: 9 givenname: Ahmed surname: El‐Yazbi fullname: El‐Yazbi, Ahmed email: ayazbi@aiu.edu.eg organization: Alamein International University – sequence: 10 givenname: Yehia orcidid: 0000-0002-6661-6073 surname: Mechref fullname: Mechref, Yehia email: yehia.mechref@ttu.edu organization: Texas Tech University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/40677108$$D View this record in MEDLINE/PubMed |
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| Keywords | Type 2 diabetes neurovascular coupling cognitive decline synaptogenesis |
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Type 2 diabetes (T2D) is a complex metabolic disorder with rising global prevalence, leading to major complications such as cognitive decline,... Type 2 diabetes (T2D) is a complex metabolic disorder with rising global prevalence, leading to major complications such as cognitive decline, cardiovascular... |
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| SubjectTerms | Aged Alzheimer's disease Antidiabetics Cardiovascular diseases Cardiovascular Diseases - drug therapy Central nervous system Cognition - drug effects Cognitive ability cognitive decline Combination therapy Diabetes Diabetes mellitus (non-insulin dependent) Diabetes Mellitus, Type 2 - blood Diabetes Mellitus, Type 2 - drug therapy Dipeptidyl Peptidase 4 Dipeptidyl-Peptidase IV Inhibitors - pharmacology Dipeptidyl-Peptidase IV Inhibitors - therapeutic use Drug therapy Drugs Female Glucose Growth factors Health services Humans Hypoglycemic Agents - pharmacology Hypoglycemic Agents - therapeutic use Inhibitors Insulin Male Metabolic disorders Metformin Metformin - therapeutic use Middle Aged Neurodegenerative diseases neurovascular coupling Peptidases Proteins Proteome - analysis Proteome - metabolism Proteomes Proteomics Proteomics - methods Renal function Sodium Sodium-glucose cotransporter Sodium-Glucose Transporter 2 Inhibitors - pharmacology Sodium-Glucose Transporter 2 Inhibitors - therapeutic use Statistical analysis Synaptogenesis Type 2 diabetes |
| Title | Serum Proteome Profiling of Diabetic Patients Treated With DPP4 and SGLT2 Inhibitors Shows Improved Cognitive and Cardiovascular Functions |
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