100 Examples of sentences containing the noun "autocrine"

Definition

Autocrine refers to a type of cell signaling in which a cell produces a signal (such as a hormone or cytokine) that binds to receptors on its own surface, thereby affecting its own activity. This process is essential in many biological functions, including growth, immune responses, and cellular communication.

Synonyms

• Self-signaling
• Intracrine (in some contexts)
• Local signaling

Antonyms

• Paracrine (signaling to nearby cells)
• Endocrine (signaling to distant cells through the bloodstream)

Examples

1. The immune cells autocrine their own growth factors to enhance proliferation.
2. In cancer research, scientists study how tumors autocrine their growth signals.
3. During the inflammatory response, macrophages can autocrine cytokines to amplify their effects.
4. The mechanism by which the cells autocrine is crucial for tissue repair.
5. This process allows cells to autocrine and regulate their own functions effectively.
6. Researchers found that the tumor microenvironment could influence how cells autocrine.
7. Understanding how cells autocrine might provide insights into developing new therapies.
8. The feedback loop created when cells autocrine can lead to homeostasis.
9. In some cases, cells may autocrine factors that promote cell survival.
10. The ability of neurons to autocrine neurotransmitters plays a role in synaptic plasticity.
11. When studying embryonic development, it's essential to consider how cells autocrine.
12. Certain types of stem cells can autocrine signals to maintain their pluripotency.
13. The research demonstrated that some cells autocrine in response to environmental stress.
14. The pathways through which cells autocrine can be complex and interlinked.
15. Scientists aim to understand how cells autocrine to develop better vaccines.
16. The balance of how cells autocrine and paracrine can determine disease outcomes.
17. Cells in the pancreas can autocrine insulin to regulate their function.
18. The study indicated that when cells autocrine, they can influence neighboring cells as well.
19. Researchers are looking into the role of autocrine signaling in chronic diseases.
20. The way certain immune responses autocrine can lead to autoimmunity.
21. In vitro studies showed that cells could autocrine to enhance their healing properties.
22. Tumor cells often exploit autocrine mechanisms to sustain their growth.
23. Cells autocrine to respond rapidly to changes in their environment.
24. Understanding how cells autocrine can help in developing targeted therapies.
25. The signaling pathways that allow cells to autocrine are a focus of many studies.
26. The interaction of cells that autocrine can lead to significant changes in tissue dynamics.
27. When cells autocrine, they essentially communicate their needs to themselves.
28. The findings suggest that autocrine signaling plays a role in metabolic regulation.
29. Cells can become resistant to treatment if they rely heavily on autocrine signals.
30. The research highlighted the importance of autocrine pathways in cancer biology.
31. Some growth factors are known to autocrine and influence cell cycle progression.
32. The ability of cells to autocrine can be a double-edged sword in therapy.
33. Neurons that autocrine can shape their own synaptic behavior.
34. The effects of autocrine signaling can be seen in various physiological processes.
35. In chronic inflammation, cells may excessively autocrine their signals.
36. The feedback from autocrine signaling can enhance cellular resilience.
37. Cells that autocrine may adapt better to stress conditions.
38. The role of autocrine factors in stem cell differentiation is a growing area of research.
39. Understanding how cells autocrine can lead to breakthroughs in regenerative medicine.
40. The dynamics of how cells autocrine can influence therapeutic strategies.
41. Cells may autocrine to balance their own proliferation and apoptosis.
42. The study demonstrates how critical autocrine signaling is in wound healing.
43. In cancer cells, autocrine signaling often leads to uncontrolled growth.
44. The coordination of functions in tissues relies on cells that can autocrine effectively.
45. Cells often autocrine to maintain homeostasis in the immune system.
46. The mechanisms through which cells autocrine are essential for tissue engineering.
47. The research explored how certain factors can enhance autocrine processes.
48. Cells that autocrine can sometimes evade immune detection.
49. The ability to autocrine can be a hallmark of aggressive tumors.
50. In endocrine dysfunction, autocrine signaling may also be disrupted.
51. The role of autocrine signaling in neural development is an important area of research.
52. The potential for autocrine therapies is being investigated for various conditions.
53. Cells often autocrine to modulate their own immune responses.
54. The interplay between autocrine and paracrine signaling is complex and crucial.
55. Understanding how cells autocrine can facilitate drug development.
56. Many diseases can be traced back to dysregulated autocrine signaling.
57. The efficiency of how cells autocrine can impact overall health.
58. The study revealed new insights into how cells autocrine to regulate metabolism.
59. Cells can adapt their functions based on the strength of autocrine signaling.
60. The relationship between autocrine signaling and cancer progression is well-documented.
61. Cells may utilize autocrine mechanisms to sustain their energy needs.
62. The potential for autocrine-based therapies is an exciting frontier in medicine.
63. When cells autocrine, they can influence their own microenvironment.
64. Researchers are investigating whether modulating autocrine signaling can improve outcomes.
65. The balance of autocrine and other signaling types is crucial for normal function.
66. Cells that autocrine can sometimes develop resistance to therapies.
67. The ability to autocrine in response to stress is vital for cell survival.
68. The study of how cells autocrine can lead to new treatment strategies.
69. In metabolic diseases, autocrine pathways may become dysregulated.
70. The significance of autocrine signaling in chronic conditions cannot be overstated.
71. Cells can often autocrine to maintain their structural integrity.
72. The research team is focused on how cells autocrine during development.
73. The role of autocrine factors in tissue regeneration is a key area of study.
74. Cells may autocrine their signals to adapt to changing conditions.
75. The implications of autocrine signaling in therapeutic resistance are being explored.
76. In normal physiology, cells often autocrine to ensure proper function.
77. The dynamics of autocrine communication are essential for understanding disease.
78. Cells that autocrine effectively can often outcompete their neighbors.
79. The mechanisms behind how cells autocrine can reveal new drug targets.
80. The potential for autocrine modulation in therapy is an exciting prospect.
81. Cells can autocrine to regulate their own proliferation rates.
82. The complexity of autocrine signaling pathways is a topic of ongoing research.
83. Understanding how cells autocrine can help in developing targeted therapies.
84. The ability to autocrine is often linked to cellular plasticity.
85. The interaction of various factors can enhance or inhibit autocrine responses.
86. The role of autocrine signaling in metabolic regulation is gaining attention.
87. Cells that autocrine can influence their own fate.
88. The mechanisms of autocrine signaling are critical for therapeutic interventions.
89. The importance of autocrine factors in maintaining tissue homeostasis is clear.
90. Cells can autocrine to fine-tune their functional responses.
91. The implications of exploiting autocrine mechanisms in cancer therapy are profound.
92. When cells autocrine, they can create a feedback loop that enhances their functions.
93. The interplay of autocrine signaling with other pathways is a focus of many studies.
94. The potential for autocrine interventions in regenerative medicine is promising.
95. Cells that can autocrine effectively are often more resilient to stress.
96. The role of autocrine signaling in immune modulation is critical for understanding health.
97. The ability of cells to autocrine can influence their interactions with the environment.
98. The future of autocrine research may lead to novel therapeutic approaches.
99. Cells may autocrine to adapt their metabolism to changing conditions.
100. Understanding how cells autocrine is key to developing effective treatments.